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Nuclear data sheets for A = 145
Nuclear
Data
Sheets
Nuclear
49,
1 (1986)
Sheets
Data
for
A = 145"
L. K. PEKER N a t i o n a l N u c l e a r Data C e n t e r Brookhaven National Laboratory U p t o n , N e w Y o r k 11973, USA (Received July
8, 1985; R e v i s e d A p r i l 11, 1986)
Abstract: T h e e x p e r i m e n t a l
nuclear structure data available through A summary of information obtained in various reaction and together with adopted level schemes.
Cutoff
Date: J a n u a r y
Organization
Research
J a n u a r y 1986 h a v e b e e n r e v i e w e d , decay experiments is p r e s e n t e d ,
1986.
of M a t e r i a l : See page v.
sponsored
by the
U.S. D e p a r t m e n t
of Energy,
under
contract
no. DE-AC02-76CH00016.
0090-3752./86 ~7.50 C o p y r i g h t ~ 1986 by A c a d e m i c P r e s s . Inc. All r i g h t s o f r e p r o d u c t i o n i n a n y f o r m r e s e r v e d .
A
145
DATA
NUCLEAR
Index
Nuclide
Data
Type
Skeleton Scheme for A
=
145
for
Nuclear
SHEETS
for
A
Data
Sheets
A
Levels
Drawinss Radiations
=
145
Levels
Tables Radiations
4
Adopted Levels
4
19
145Ba
t+SCs
fl- Decay
6
6
22
19
~45La
14SBa fl- Decay
9
9
24
22
145Ce
'4SLa f l -
8
8
26
24
l~Spr
Adopted Levels, Gammas 14~Ce f l - D e c a y a52Cf SF D e c a y 146Nd(d,3He) E=50 MeV
4 10
28
28 26 30
Adopted Levels, Gammas 145Pr f l - D e c a y 145pITI ¢ D e c a y tSSXe(laC,4n5') E = 4 9 - 6 0 MeV '44Nd(n,7) E=thermal 144Nd(n,'7) E = r e s o n a n c e 1 4 4 N d ( d , p ) E=12.1 MeV 144Nd(a,3He) E=66.2 MeV
4
145Nd
Decay
t0 3O 30 31
11 13
II 13
12
12
36
38 40
145Nd(n,n'7) 145Nd(p,p') Coulomb Excitation 146Nd(p,d) E=31 MeV 1 4 6 N d ( d , t ) , ( p o l d , t ) E=16 MeV t 4 6 N d ( a H e , a ) E = 2 4 MeV L46Nd(aHe,a~) E=26 MeV t45pm
145Sm
13
13
12
12
5
13
13
Adopted
5 14
14
Levels, Gammas
t44Sm(d,p),(d,p'y) 1 4 4 N d ( a , 3 n T ) E=37 MeV L 4 4 S m ( a , 3 H e ) E = 4 0 MeV 1 4 4 S m ( t 3 c , l e C ) E=72 MeV t45Eu
40
Adopted Levels, Gammas L45pm a D e c a y 145Sm e D e c a y 144Nd(SHe,d) E = 2 4 MeV 145Nd(p,n3,) E = 5 . 5 - 8 MeV t 4 6 N d ( p , 2 n T ) E=14.9 20.2 MeV
ta5Eu E D e c a y t44Sm(n,7) E - t h e r m a l
Adopted Levels, Gammas 145Gd t D e c a y (23 min) t45Gd £ D e c a y (85 s) 149Tb a D e c a y (4.13 h ) 149Tb a D e c a y (4.16 m i n ) 142Nd(6Li,3nT) E=32 MeV t 44Sm(p,p),(p,p'),(pol p,p') 1 4 4 S m ( 3 H e , d ) E = 4 0 . 3 3 MeV 1 4 4 S m ( a , p 2 n T ) E=50 MeV 1 4 4 S m ( a , t ) E=80 MeV
43 43 44 44 45
48 48
15 15
47 48 54 49 49
51
15 15
44
45 46
54
52 62 54 55 56
56 56 57 17
17
59 70 72
17
17 16
65
16
66 67 16
16
66 67 67
144Sm(VLi,eHe) E=52 MeV 145Gd
33 29 48 36 37 38
Adopted Levels, Gammas '45Gd IT D e c a y (85 s)
5
t4~Tb ~ D e c a y (29 s) 1 4 4 S m ( a H e , 2 n T ) E = 2 4 MeV
t8
18 18
t44Sm(a,3n~)
18
18
t45Tb
t45Dy ¢ Decay (13.6 s)
5
76
t45Dy
Adopted Levels
5
77
18
68 73 73
68 73 76 73 75 77
=
145
A =
145
DRAWING
1,
PART
I
NUCLEAR D A T A
SHEETS
~L ooe~
o,
c,
o o
Z ~o .r
e. ,~ e.
lllilDIInlilllill~Nl .,C
,,el~
,i,o
r
/i~ ,"~,
o,
i11'I
0
r~
$:
~:
i,,i'
:
III ,era
:
!
~,
~,
el
ce
~,
?
o
o
~
~
o~ ,r,
NUCLEAR D A T A SHEETS
DRAWING I ,
PART ~
A = 145
c~ ×
o'.
£
$: ,~:
o~, : 1', :,-, © g '
"
~"
II ÷
2~
)i ziz:
~',, ~: P
6~v
~
''
v ~...;c4
&
ltJJillJ l tl li l ljlijll
tt
e
? ~T e
~~ J
,
-4 w
l lIliIII'l[Il
~'-
II
ii
o
8
o
It
A =
145
DRAWING
2,
PART
1
NUCLEAR
DATA
SHEETS **aCs ~ -
Decay 88RoZT Part ! of g
7800
3({+
145 66Cs~o
o.o
Intensities: l(7+ce) per I00 d e c a y s of p a r e n t & Multiplet; u n d i v i d e d intensity g i v e n
O. 594 s
\
~-=77~)0130 %p--IO0
2 8 0 0 "-'
o'O'o,o.o,o . 1400 -
Ea-
I~_
Io= Z~
\
2 . 2 .~
6-7.~6 ~ )
1353.6
0.41 7
7.04, 9 )
1299,58
2
6.47 7 )
1240.69
4.5 5 4,2 5
6,05 7 ) 6,08 8 )
1137.85
0,12 2
7.63 9 ) '~-
1.4 3
6.6
1.6
1155.32
J3!~t_
..........................................................
1050.46
I )
1000 -
/ I.I 0.6 2.1 2.2 3,3 2,1
2 1 3 3 5 4
6.74 9 7.01 9 6.47 8 6.45 7 6,28 8 6.489
) ) ) ) ) )
~'o'2o' ~ . ~ ~ - ~ o'o'o" ~.~4~ • o , , . o . o . ~ ~-~ o~~ 4 e ~ . °'°'°'~ °'~ t, ,v " ~ , . . . . ~ . ^ ,
-o
~ ~0~?0.0~%~
. . . .
9~0.
872.27 s5,.47 836.33
--+..+-.~--~--
! 72~0 17
3.1 8
6.3 I )
2,0 3 2,6 4
6.53 8 ) 6.42 8 )
1.1420 3,1 5
6.799) 6.368 )
3.6 5
6.31 7 )
3.1 4
6,3e 7 )
7510 15 7510 t5
>1.5 6,2 8
<6,7 ) 6.11 7 )
7650 22
2.3 4
7350 17
500-
6.54
\ I - I I
(3 2 3/2+
l
I
\ 0,9 2
7.0 I )
0.23 ~8
7.6 4 ) \
7.4 12
6.1 2
9.4 12
6,0) 7
_~__
9 )
>6,o )
\ \
(3/2)+
,f
~ 3/3--'
\
5/2-
4.31 145
56Ba89
NUCLEAR
DATA
DRAWING ~ ,
SHEETS
PART
~
A =
t45
i'~Cs ~ - Decay 88RoZT
P a r t 2 of ~,
o.o
0.594
s
7800
i
\
145
55CSoo
0-=77g013o ~--|O0
2800
- 1400 \
I_l=
Io8 si
\
2 . 2 4.
~.-7-.'~
1383.6
0.41 7
7.04 9
1299,58
1.6 2
6.47 7
1240.69
4.5 6 4.2 6
6.05 7 6,08 8
0.12 2
7,63 9
1,4 3
6.6 I )
\~ ',~
1155.32 1137.85
~ .................................................................................................................................
~]~[.
1050.4.6
1000
1.1 2
6.74 9
872.27
0.6 I 2.1 3 2.2~
7.01 9 6.47 8
851.47
3.35
6.2
2.1 4.
6.457
6.46 ~
836,33 819.82
'~'oo~ -o
\+
~ k~" '."" _ . . . . .
. 795~97
•
785.54 753,43
721o
17
3.1 8
6.3 I )
2.03 2.64
6.538 6.428
\
I
5/2
" ' ' ' ~ ''~''
724,34
O' ~ ' 0 " 0
~f~ L " ° ° ~- ~o' o~o - ---~,~
672~39 " 663.25
I # ~ ¢ @ # 1.1420 3.15
2.23 7350 17
3.6 5
627.34
6.799 6.~8
611.1
= , i
6.527 6.31 7
~
2
~o,-,~, ~--,#~__
~'o. o'__
566.66 547,13
:
491.86 7510 15
7510 15 7650 22
7770 22
>1.5
<6,7 )
6,11 7 6.~ 9
0.9 2
7.0 1 )
0.23 18
7.6 4 )
8 2
6.1 ; )
\~1 5/2-
7,4 12
6.1 2 )
~ I/2-
9,4. 12
6.0t 7
~ 3/2-
>6.0 )
454-.66
)-
6.2 8 2.3 4.
500
435.69
416.6
~ (3/2)+
319.79
~
277.11
--.~
175,36
112.445
~ 5/2-
m 148 56Basg
7
4.31
s
-0
A
=
145
DRAWING
NUCLEAR
3
DATA
SHEETS
~s
i
°=
i iI
°:
I
@'z
I
o.
I
I o
~:oo ,.
I
, ...... .,.J .... /
!
I , 'd, ° I
~%' ~.~
.........................................
~
+
e,.
e~
1
;
~e'o
e" 0 o. e ; ~/ ', "<" "o e ' "¢-e ',
i es "° o. ~ ~ . , ~.o o_~ ~..
~. ~
,,
"I
~ ; ',
~. e.~,
~0 @'O/g ~ ~0~
Zg .
I
I
I
I
e, "z ~'~ 'ee o # £" ~ ' o "" ~ e
c¢" o
o
e,
~e
.~
m m
"~°" i
z. ~e
%
J
/
•
~
~
-4-
~
'~
m
.
.
£RR£
.
.
.
.
,o ,o ~o
..o
~e~
m i
5
®
o
,¢
o. I
oo c~
o4
~
oO
NUCLEAR D A T A
SHEETS
DRAWING
A =
4
*4SBa B- Decay 78PfO2,82ChZV Intensities: l(7+ce) per I00 decays of parent 5/2-
o.0
4.31
s
5000
i
145
5sBas9
0_=4950,t0
z/~-=IO0
2800 -2800
0'0"0'0" \ o.e,
2566,4
~8T
- 2500
-2000
-1500
-
3.9 5
5.92 S
~L ........
] E RE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
:,z~:
1200 1200
=
o' ?
0,172
7.358
0.223
7.268
~ ........ - 1000
<2.2
2.13
~,3)
6.359
973.6
~ ........
............................................................
922 ._4_.
827,0
~ ........
~'o'~ ?? 4230 17
<6.0
>5.9 )
<2,1
>6,4)
\ 3.96
<5.4
t
........
.
6.188)~---.
'
45002
6.298) 6.088)
4570 20
3,4 5
6,36 8 )
1,82
6.677)
4,66
6,288)
9,4 12
6.01 8 ) (
...........................................
~'
4"
--
A32...%.
598.9
-- --
.
514.2 492.2
.
475.3
V'
>6.1)
3,45 5,67
i
~
-500
~e9
4860 17
16 2
4920 12 23 10
351.5
"-~,~
,~ ~ .
237.9
li :?'°
5.79 8 )
5.7 2 ) L4~T~ 57~a88
65.9
g I%8
o.o
24.8
s
145
A
=
t45
DRAWING
NUCLEAR DATA SHEETS
5
145Ce ~- Decay 88RoZU,80Ya07 Intensities: l(7+ce) per tO0 decays of parent & Multiplet; undivided intensity given
26oo1 c3/~-~t45Ce~.~,.,,,--,oo =z~3o, \ ,o ~'
,7
o.o
3.o, , ~
1400 "J 1400 -
~0' 0',~ ,'v
( 1270
10
In.. 18,4 22
3,5 5
1o= /= \ _ . 5.06 9 )
12t0.7
5.90 9 )
1t10.6
1000-
1620 20
0.94
3.3 4
6.82)
6.22 8 )
859,7 845.9
3~ ~ 2 +
:~,~'d~'~ 1715 50 66 8
787.3
4.97 8 )
%
500 -
(S/2)+
11 1~'
>7.61U ) 14~*D 51~=r86
10
NUCLEAR
DATA
DRAWING 6
SHEETS
A =
14,5
=4Spr p - Decay 76Ja01 I n t e n s i t i e s : I(')'+ce) per tO0 d e c a y s of p a r e n t 1900
7('~+
~45 ~PrBo
o.o
E
5.084. /~
\
1700
~-=1805;'
-
1700
\
1527,05
,,4'
- 1500
Z -T?°°°°°°
\ 0.090 2
7.65 3 )
~:~tb
~ ~5/2-)
1403,92
[
0.0021 3 9.50 7 )
\ 5/2\
O'o'o"
~
0.0020 4 9,68 9 ) ~ 5/21 0.007 8 9,2 4 ) ~ 5/2-
O.OH 3 0.02 I 0.22 4
9.25 12 ) 9,0 2 ) 7.98 8 )
0.443 6
7.93 7 )
"
8.44. B )
O' O' O- O" O" o' "~'0~00~ o ~ , o.
124-9.73
$~ o~,~ ~
/2-
~"
\5 / 2 ~ \
~1161.05
'~ : ' / 2 -
~
1085.25
3/2+ 7/2-,5/2-
!
11/2-
0.22 4
1285.6
~
~]-q
;
,=
III
1051.41 o'o'o'
~,4~
937,05 920,72
I
"m9 ,o' o" o"
3/28.06 9 )
- 1000
5/29/2-
i
1.0 2
1011,22
-~6"~ -
o'oo'
#,.~
' ' ' , ~ ~'-'~ '%. _
~ 78O .45
t
9/2-
I
o"
6876,
11/2-
- 500
0.33 7
1808 fO 97 19
9,36 10 ) \
6.95 9 )
'&"
5~
3/2-
~ 7/2-
72,50
! t
t
11
'
14~ eoNdss
,
ftJ
o.0
-0
A =
14-5
DRAWING 7
NUCLEAR D A T A
SHEETS
~44Nd(n,7) E = r e s o n a n c e 77McOg I n t e n s i t i e s : relative 17
14SNd(3He,aT) E=26 MeV 84Ra03 Intensities: relative
6200-
13'
6000Sn+1.628 Sn+1. 298 Sn+O.734
5000 -
4000 -
3000 -
2000 -
? 11/2-
~"
3/2+
)533.3
(512-)
1403.9
1318.4 o~o
1213.3 3/2+ 7/2-, 5/2-
#
1000 -
1802.0
c~
t744.8
9/2-
°2-.s
3/29/2-
780.5
11/~-
657,7
5/27/2-
72,5 0.0
72,4
.0145 eoNds5
145 eoNde5
12
NUCLEAR D A T A
SHEETS
DRAWING O
A =
145
8 I
~.~
O.
~
c
~.'~ I ee o~'~ I
i0<
I
e.% %
l.$, "t~
I
i
I /
tx
I 9 u e~ ~-
~.
~o
Z
~ o.~ o
6
% o
~ ~3~ o,
.o a
I
~
~. ~.
~~
d . G:
%
X Q ~,C
Z 9 ~ O"
~
o~
e~
i o
~o~
13
cqcq
A
=
145
DRAWING
NUCLEAR
9
A
~
.
.
DATA .
SHEETS
.
.
.
.
~
~So ~ 6 66
666
~.
~
o
~S.
66 o
g
c r,
-
~O.o Qi '%
o~:O e.
t~ , J
~s:,.
%.'
i i i i
J
I I °~°~~ ~
i
J
i <
e ~e. L
~'0 1
J
E L J I
+
c
I I ~o, o
.....
. . . . . . . . . . . . . . . . . . . . .
I
I m
-
i
o
14
So
o
NUCLEAR
DATA
SHEETS
DRAWING
tO
A
=
L+*Sm(d,p),(d,pT) 75Bo22,67Ch16
L
14~Nd(a,3nT) E = 3 7 MeV ??Ha04 Intensities: r e l a t i v e 17
S' 24
4027
11
3916
17 8
3783 3726
-4100
-4000
3596 t8
t
I 3558 (b
3506
9
~6 J
\ ~
3369.7
25/2+
/ 3335 58 3
-3500
/
/ ~388 //3302 3275
3246 3183 1 3
0.27 O. 55
2:1,'2
3131 3096
20 2
3018 2960
4.5 <13 <13
2926 2842 2824
~
/ / / /
2 I~ 0.21 3.55 ~ - " 2 "4
\
,,, ,~ 4'
2750 2724 2674 2661
~,
2784.9
19/2
2710.3
2629 2563 2512
1.5
0.43 4.6 3 O. 22
2429 2390 2349
4
2297
O. 18
2}99
1
0.14
k----
_
17/2+
i
,£-~Y
-2500 2438.0
Z o 2229.9
17/2
• 2164 / 213__8 f 21~2
" " ~q;
1.5
32.03 053
~ ~ ~o~
2488
~
3
1
-3000
2978.3 2931,6
2t/2(+) 21/2+
<13 ~' ~
3120.1 / 3118.5
. ~ " ....o.~.~" .,% ?
~eq
]~o
2049.9
15/2+
2o02
~3 ns
-2000
/ 1979
3 0.67 4.6 6
9/2-
3.19
1774, I
9-o
(1512)+
'I'
o
1706.0
9/23
1 . 25
1
1,26
o ~,--?
( 1I / 2 - )
1538.0
5
6.41
.9/2-
6
6.44
13/2+
- 1500
1469.0 1423.0
( 15/2+ )
14 ns
1000 1
3/2-
2.13
893.6
500
,
3
6.82
7/2-
145 8zSm83
[45
82Sm83
15
I
145
A =
145
DRAWING
NUCLEAR D A T A SHEETS
Ii
MeV
14ZNd(aLI.3nT) E=3~ 80RaOt,8OBa01 Intensities: relative 5600
17
i~Sm(a,p~n?) E=50 ?gHa48 Intensities: relative
-
MeV 17
5154
29/2
5000 -
/ -~ 27/2+
4000 -
2 C
[,J
25/2+
4122.8
27/2+
4124
3976.3
25/2+
3977.7
/ 23/2-
2
~"
3000-
2v2-
17/2-
[
- ~ I
J ,
~"~'~ i
,r
2,/2-
2~L~
.... a --~,~t~
.................... --
7 2836.,
J 2813,5
17/2-
2573.6
15/2-
~ ' 15y2-
(,
3'83.9
"~"
........ iT ~ * % ~ , ~ •
23/2-
3183.0
# 9o0
(, "
@,
~)" ,'¢ ~o .,o,9, ~ ~ ~.~~,..Q c r9 0 (>~.~ 0 ~ ' ~ ~
•
'
T
__-~
11
-C
c>
~.5 n.,
C
°°
2574,.0
?Q
~'~ "~e' 15/2+
2912.1
228,.1
'~
-
-
15/215/2+
2244,4
"~
/ 2283,5 2244.9
#
o?
/S ~v,k
2000-
1-5"/
k
~3/2-
/ 1828.5
"
_"
,~5.
q~ ~
1601.2
1601.8
1000 -
490 ~ s
490
7/2+
329.4
3)9.6
O-
145 83Eusz
145 s3Euse
16
NUCLEAR
DATA
SHEETS
DRAWING J'(°Tb a
~ D e c a y ( 8 5 s) ?OEp02 Intensities: l(7+ce) p e r tO0 d e c a y s
**SGd
l(gTb a D e c a y (4.13 76HolT,74To07,67Go32
D e c a y (4.16 74To07
t2
A
rain)
h) - 6000
of parent
/
11/2-
748.7
85
= 145
s
- 5500
1[/2+ 145
0.0
- 5000
2 3 . 0 'rr'~r~
s4.Gdet 'V~-, ~ 4 . .
Q+=5050 ~o
~2 . . . . . 149 esTbs4
o.o
I(2+
t49 esTbs(
4 . 1 3 1% ~ . = = t5,8 ~4
le 'rr=n I[ 4.13 h ~.~-a=2 .2. tO-" 3
- 4500 - 4000 - 3500
Q==4078 a
Q~=40783
- 3000
- 2500 - 2000 - 1500 L -
IB+
716.1
11/2-
( ¢.4 #
1000
1000
I__c log / t 1.2B 12 ~ - ~
- 500
~'~
7/2+
329.5
7/2+
329.5
s/2+
o
( 364~ 3
0.03 t ~ 0
)
%_ s{2+ t45
e3Eus3
( 3967 3
100
9)
s(2+ 145 o3EUsz
J45
03Eu82
17
0,0
( 3999 7 )
A =
145
DRAWING
NUCLEAR DATA SHEETS
13
8 I
I
I
I
I
i
o.% ,9
~
~"
"i~
"%"¢,
/ .~
O.o~
I
~. o~ m
0
.: ~.~
o¢: ~:¢ Z,o _t"°
<-=
<. ~<~.,,,%~
_
_
"%'7 di 7-I
r,
e. .e
?,
0~+
i=,
e,
A
A A
,Q, ,n
o. ,o
•.~
r-
oo
a: ~ o ="
~
.~
o~ v
r
<,.,
o Cu O'D"
0
"'e O.
~0
°%
£*
9. e . <'o6
~'~
,
%
r~ .e©
wZ~
~
~..e_o¢ I
O g'~, I
ff I
e~
r
I - - 1
8
÷
q
I
I
8 o°
0
18
15455, r, ~~o 9 0 - - 1,
NUCLEAR
DATA
t4~Cs A d o p t e d Q(fl-)=7790 E(ievel)
130;
s(n)=4910
J~
0.0
3/2+
30
Levels
85Wa02.
Tt/z 0.594
15455, .r~_9 0 - - 1
SHEETS
Comments
s
% f l - = 1 0 0 ; % b - n = 1 3 . 8 8. p,=+0.784 4 (81ThO6). Q=+0.62 6 (81Th06). J~r: 7 9 E k 0 2 , a t o m i c beam magnetic resonance, 3/2[4223 Nilsson orbital ( 7 9 E k 0 2 ) f r o m a n a l o g y t o t4aCs. T l / 2 : f r o m 8 2 R a 1 3 ; o t h e r s : 0 . 5 4 s 2 (82DeZX), 0 . 6 0 5 s 3 0 ( 7 9 E n 0 2 ) , 0 . 5 9 0 s 2 0 ( 7 8 W o 0 9 ) , 0.811 s 21 ( 7 4 R o 1 5 ) , 0 . 5 6 3 s 2 7 ( 7 1 T r 0 2 ) . Delayed neutron emission probability=t3.8% 8 (recommended in 84Ma39); o t h e r s : 13.3% ( 7 9 R u Z R ) , 13.6% 10 ( 8 0 L u 0 4 ) , 13.3% 2 7 ( 8 0 R e Z R ) , 19.5% 16 ( 8 1 E n 0 5 ) , 12.2% 9 ( 7 9 R i 0 9 ) , 12.5% 3 0 ( 7 8 C r 0 3 ) .
13
"y(t45Ba) f r o m
t45Cs
fl-
Decay
86RoZT
M e a s u r e d : 7, 7 7 ( 8 6 R o Z T , 8 3 D e Z I , 8 2 D e Z X , 7 8 S c Y Y ) , 7 ( 8 2 R a t 3 , 7 9 B o 2 6 , 7 3 W u 0 3 ) , ce ( 8 6 R o Z T , 8 2 R a t 3 ) , -r~(O) ( 8 6 R o Z T ) , d e l a y e d neutrons (81En05,80LuO4,79RiO9,77ReOS,77Re06). Delayed neutron emission probability=13.S% 8 (recommended i n 8 4 M a 3 9 ) ; o t h e r s : 13.3% 18 ( 7 9 R u Z R ) , 13.6% 10 ( 8 0 L u O 4 ) , 13.3% 2 7 ( 8 0 R e Z R ) , 19.5% 16 ( 8 1 E n 0 5 ) , 12.2% 9 ( 7 9 R i 0 9 ) , 12.5% 3 0 ( 7 8 C r 0 3 ) . 30 (77Re06), Average delayed neutron energy=460 IT n o r m a l i z a t i o n : I(175.47)=19.8% 24 (86RoZT). E f l - ( 1 9 8 . 9 3 l e v e l ) = 7 7 7 0 2 2 0 f r o m 8 2 P a 2 4 ; o t h e r : 6 9 4 4 180 ( 8 1 D e 2 5 ) . with 7950 80 observed in 82Pa24. E f t - ( 0 . 0 l e v e l ) = 7 7 9 0 130, 7 3 5 8 70 ( 8 1 D e 2 5 ) c o n t r a d i c t E: frorr~ f17 ( 8 2 P a 2 4 ) ; o t h e r s : 7 4 1 0 120 ( s i n g l e ) , 6 9 4 4 180 ( c o i n 1 7 5 7 ) , 6 6 8 7 2 5 0 ( c o i n 11230, 6 1 5 9 3 0 0 ( c o i n 756-y) (81De25); 5 9 0 0 5 0 0 f i t ( 7 4 W u 0 2 ) . Ifl: w e a k fl(g.s.) b r a n c h (86RoZT,82Ra13) disagrees with the results of comparison of single fl-spectra and fl-spectra f r o m f17 ( 8 1 D e 2 5 ) . E(level)
E7 $ 38.24 x84.74 86.26 x87.34 105.94 112.46
121 x143 156 164 171 175
454.66
01 94 T 3 34 64 97 36
I75#
Mult.§ 40 18
198.93
1.79 7.67 5.82
11
M1
672.39
2.28 0.79
112.46
54.11
4 9 72
MI+E2
319.79 611.1 277.11 627.34 175.36
0.35 24 10.5 3 2.38 31 7.49 59 4.32 27 I00.0 16
3.35 42 54.7 87
207 214 217 227 231 238
319.79 491.86 785.54 547.13 724.34 785.54
16.20 1.16 <1 3.38 1.84 7.90
32 21 84
M1,E2
416.6
28.92
29
E2
240.97 246.92 x249.74~ 255.94 260.29 277.12
566,66 14 454.66 435.69
277.11
Comments
1.531
Mult.:
1.169
Mult.: a(K)exp=0.92 a ( L ) e x p = O . 1 2 8 12 a(K)exp=0.79 24, a(M)exp=0.033 10
0. 272
611.1 198.93
36 16
2.0
E2
194.56 198.93
12 52 72 36 92 41
~
Mt
0.147
E1
0.031
K/L=5.71
on
next
(footnotes
19
41,
8
Mult.: ~ ( K ) e x p = 0 . 1 O 7 20, a(L)exp=O.Ol4 4 (86RoZT); a(K)exp=0.130 40, c~(L)exp=0.02O 6 (82Ra13). 20 (86RoZT). Mult.: a(K)exp=0.053
Mult.: a(K)exp=0.126 30 (86RoZT), 33 (82Ra13). a(K)exp=O.ltl 12 ( 8 6 R o Z T ) , Mult.: a(K)exp=0.988 ~(K)exp=O.095 28 (82Ra13).
0.093
pa~e
12,
(86RoZT); a(L)exp=0.138 (82Ra13).
M u l t . : c t ( K ) e x p = 0 . 1 6 9 16, a(M)exp=O.0074 8 (86RoZT); a(K)exp=0.170 50, a(L)exp=0.026 (82Ra13).
2.46 6 5.7 5 12 2.49 0.86 20 2.14 9 Continued
(82Ra13).
at
end
of
table)
1451~o
o
55,~90-~
NUCLEAR
7(14~Ba) f r o m
s>t 279.46 289.2 293.2 304.5 307.95 317.83 319.84 323.34 x325.481 x328.85 x335.04 341.74 343.44 348.21 x352,101 360,34 367.71 369.18 378.93 383.8 391.15 395,14 416,52 419.74 429,07 430.27 434.71 435.63 435.72 439.6 444.22 452.03 454.28 454.77 455.23 464.82 473.76 476.26 481.34 487.18 492.08 500.35 503.17 517.24 525.83 528.38 547.06 548 x549 552 554 559 566 571 574 578 586 595 597 611 620
17~#
454.66 836.33 491.86 418,8 724,34 753,43 319,79 435.69
4.01 50 I . 0 0 12 12 2.18 2.38 18 1.98 9 2.97 23 7.55 22 5 . 17 2? 1.'/4 1.87 23 2.38 0.56 13 4,17 15 I. 06 22 2.76 I . 0 0 18 5.34 23 0.87 9 8.58 33 0.85 8 1 . 10 2 7 5.83 59 5 . 14 77 1 . O0 2 3 1 . 32 3 6 5.78 23 5 . 74 39 29.02 41 10.20 90 11 4.5 0.60 6 45 8.80 8.03 48 10.60 58 t . 40 35 t . O0 2 2 1.02 18 1 ,67 16 1.05 14 6.92 24 14.05 45 3.09 27 I. 32 2 2 0.95 11 3 . 68 2 3 8.69 11 23.62 41
4 98
454,66 663.25 547.13 42
99 39 t 9 92 73 86 7 06 05 13 61 46 48 16 61 @
637.46 645.28 652.83 660.89 663.49
Ell(level)
795 566 785 795 1137 566 672 416 836 627 1155 547 435 611 1050 1116 627 566 454 1240 663 1137 795 1353 663 491 819 1050 1353 724 1155 547
97 66 54 97 85 66 39 6 33 34 32 13 69 1 46 61? 34 66 66 69 25 85 97 6 25 86 82 46 8 34 32 13
724.34 872.27 753.43 672.39 566.66 1137.85 851.47 753 43 785 54 872 27 7 9 5 97 611 1 7 9 5 97 819 82 8 3 6 33 819 82 851 47 836 33 6~3 25
DATA
t45Cs ,8 7 Decay
145po
SHEETS
55,~90
86RoZT ( c o n t i n u e d )
a
Mult.§
Comments
E1
0.0045
Mult.:
a(K)exp=0,0048
6 (86RoZT).
(MI)
0.017
Mult,:
a(K)exp=0.0364
47.
El
0.0027
Mult.: ce(K) was not observed a n d expected for M1 or E2.
5.75 92 12.0 14 I .61 38 5.21 16 4.46 12 3.71 15 7.80 27 0.69 18 7.6 24 1 .83 33 1 , 35 3 0 5.45 29 2,60 @ 42 I . 4-0 @ 4 2 7.81 32 2.54 50 1 .32 28 1 .88 14 1 . 9 8 15
Continued
on
next
pa6e
Ifootnotes
20
at
end
of
table)
is less than
_,")
.~
145~ 55~90--o o
NUCLEAR
~/(t45Ba) from E3,~ x 6 7 1 9 9 ~ 46 683 44 688 48 693 09 700 62 706 63 7 2 1 13 724.26 739 1 753 26 7 5 9 51 785 33 795 9 8 0 6 58 8 1 9 68 x 8 3 0 25 ~ 78 851 68 8 7 2 13 875 03 8 9 8 92 920 25 x944 68 x 9 8 0 39 t 56 1034 02 1066 38 1101 12 1177 70 1240 30 x1414 45 x1715 59 x 1 7 3 6 98 ~ 28 x1915 13 41 x1976 94 x2024.33 x2175.59 x2322.271 55
E(level)
1137 1299 1240 1155 819 1137 724 1155 753 872 785 795 1353 819
85 58 69 32 82 85 34 32 43 27 54 97 6 82
851.47 872.27 1050.46 1353.6 1240.69
1353.6 1240.69 1299.58 1353.6 1240.69
DATA
14~Cs p- Decay
171# 0.73 6.34 t . 15 1 .56 3 . 92
2.07
3? 13 15 32 18 30 31 22 31 23 6 14 27 16
5 . 12 8.1 4,58 11.22 2.41 0.37 1 .26 3.73 1 .78 1.05 1 .21 15 1 . 6 8 25 1 . 2 0 18 1 . 2 1 41 0.85 13 I . 0 5 26 2.69 22 2.65 3.18 18 0.94 21 1 76 59 1 08 2 1 4 7 25 2 8 4 37 429 6 8 13 8 96 4? 3 68 57 2 95 39 482
Reported only in 83DeZI, 82DeZX. F r o m 86RoZT. § a(K)exp were n o r m a l i z e d to a(K)exp for standard 3,'s. # For absolute intensity per 100 decays, m u l t i p l y b y 0.198 24. @ Multiplet; u n d i v i d e d intensity given. 3' ray not placed in level scheme.
21
SHEETS
86RoZT ( c o n t i n u e d )
145po 55~o90--~
q
14513~56~89-
NUCLEAR
1
145Ba L e v e l s
from
DATA
SHEETS
145Cs fl-
Decay
14513o89-156
86RoZT
Q ( f l - ) = 4 9 5 0 110; S ( n ) = 4 2 4 0 140; s ( p ) = 1 1 9 2 0 130 85Wa02. M e a s u r e d : 3`, 3`3` ( 8 6 R o Z T , 8 3 D e Z I , 8 2 D e Z X , 7 8 S c Y Y ) , T ( 8 2 R a 1 3 , 7 9 B n 2 6 , 7 3 W u 0 3 ) , ce ( 8 6 R o Z T , 8 2 R a I 3 ) , T3`(0) (86RoZT), d e l a y e d n e u t r o n s (81En05,80Lu04,79Ri09,77Re05,77Re06). Delayed neutron emission probability=13.8% 8 (recommended i n 8 4 M a 3 9 ) ; o t h e r s : 13.3% 18 ( 7 9 R u Z R ) , 13.6% 10 ( 8 0 L u 0 4 ) , 13.3% 27 (80ReZR), 19.5% 16 ( 8 1 E n 0 5 ) , 12.2% 9 ( 7 9 R i 0 9 ) , 12.5% 30 ( 7 8 C r 0 3 ) . Average delayed neutron energy=460 30 ( 7 7 R e 0 6 ) .
J~
E(level) 5/2-
0.0
Tj/2 4.31
s
Comments %#-=100. J~r: h f s ( 8 3 M u 1 2 ) , N i l s s o n a n a l y s i s o f /~. / ~ = - 0 . 2 7 2 36 ( 8 3 M u 1 2 ) . Q = + I . 1 5 10 ( 8 3 M u 1 2 ) . TWz: f r o m 78Wo09; o t h e r s ' . 3.85 s 12 ( 7 9 E n 0 2 ) , 3.79 s 19 ( 7 6 A m Z W ) , 4.2 s 5 ( 7 4 G r 2 9 ) . J1r: ~/3`(0), T to 5 / 2 is MI+E2. JTr: 3'T(O), 3` to 5 / 2 is E2. JTr: T3`(O), T to 5 / 2 is M1.
16
3/2-
112.46 175 36 198 93 2 7 7 11 3 1 9 79 416 6 435 69 4 5 4 66 491 86 5 4 7 13 566 66 611.1 627.34 663.25 672.39 724.34 753.43 785.54 795.97 619.82 836.33 651.47 872.27 1050.46 1116.617 1137.85 1155.32 1240.69 1299.58 1353.6
1/2512(3/2)+
J~r: Jzr: J1r: JTr:
5/23/2+ (3/2)-
3` 3` 3` T
to to to to
3/2I/25/25/2-
is is is is
5/2-
is El,
(5/2)+
J~r: ~/ to
1/2,5/2
J~: 3`3`(0).
5/2
J1r: 3`3`(0).
5/2
J~: -/3`(6).
1/2,5/2 +
J~r: 3`3`(0). Jlr: 5' to ( 5 / 2 ) +
3,(145La)
from
t45Ba
El, strong 3` to 5/2-, 3,.),(0). E2, 3`3`(0). El, log ft=6.2 via 3 / 2 + parent, MI,E2; strong 3` to 1/2-. no
65.9
E(level) 2
65.9
I T S@
Mult.
31
if
~
MI
3' to
1/2-,
log f t = 6 . 3
fl-
Decay Others:
B(M1)(W.u.)=l.79* 10 -3 40. M u l t . : T's f r o m 189.0 l e v e l to g.s. a n d 65.9 l e v e l comparable IT a n d t h e r e f o r e probably similar M u l t , : K / L = 1 0 3, ¢ x ( K ) e x p = l . 3 4 (86RoZU). IT: IT=17.1% 21 (86RoZT). M u l t , : K / L = 8 . 3 14 (86RoZU).
189 .0 96 .6
43 100
M1 M1
123.2 162.3
2 2
189 .0 351 5 514 2 237 9 189 0 237 9 598 9 351 5
7 22 <22 7.6 11 6,8 3 6 1.0
if if
MI M1
0.606 0,280
Mult.:
K/L=5.3
if
M1
0,184
Mult.:
a(K)exp=0.18
ET,IT: o b s e r v e d
on
next
page
parent.
Comments
2 2
Continued
3/2+
69WiZX, 70OsZZ, 71Ho29.
91.9 96.6
171.6# 2 189.5 2 237.9# 2 247.5 § 254.9 2 x258.5#
1.398 1.211
via
78Pf02,82ChZV
a 3.65
-y to 1/2-.
is M1,E2.
M e a s u r e d : 3', 3`3`, 3`(t), ce, fl, f13` ( 7 8 P f 0 2 ) , 3`, 3`3` ( 8 2 C h Z V ) . IT n o r m a l i z a t i o n : I(96.63`)=17.1% 21 (86RoZT). E3`$
4.0 s 5 ( 7 8 P f 0 2 ) ,
(footnotes
22
at
12, a ( K ) e x p = 0 . t 8
4 (86RoZU).
only
end
in
of
78Pf02.
table)
4 (86RoZU).
have mult.
145no 56~89
_ o,~
NUCLEAR
7(Z4~La) f r o m ET~ 286.2 303.2 313.6# x316.3# 325.2 334.4 x343.7§ 351,8 361.1# 378.8 x400.O# 407.7§ 417.8 x427.2# 477.8 481.5 492.7# 532.8 544.2
E(level) 2 2 2 2 2
514.2 827.0?
2 3 2
t $ § # @ x
351.5 598.9 475.3 922.49
12 <12 18 0.8 3.4 12 2.2 6 10 2.8 24 <24 2
922.4? 514.2
2 2 2
2 2
571.97 578.6 590.8# 598.8 x610.9# x643.6# x655.3# 668.2§ 683.8?
475.3 637.5? 492.2 827.0?
[7~@
3 2 2
§
544.0 973.6 492.2 598.9 544.0 734.0 637.5? 922.4? 1176.87 827.0? 598.9
734.0 922.4? I176,8?
4 25 3.7 8.2 0.7 12 12 29 <29 <9 9 6 1,1 12 5.3 2,3 5 2 <7 7
DATA
*45Ba f l - Decay E,~ 701 730 734 x747 784 x816 844 x849 x944 x1066 1110 x1255 x1263 x1268 x1516 x1692 x1714 x1776 x1846 x1950 1968 2021 x2033 2052 x2065 x2185 x2190 x2456 2501 x2515 x2565 x2708
0§ 6§ 1 2 7# 5 5# 5 3 5# 6# 3# 4§ 2# 3# 7# O# 5# 1# 2# 5# 9# 6 5 6# 4 5# 1# 8# 3# 0 6# O# 7#
145~o 56 Jo¢~89 _ o
SHEETS
78Pf03,82ChZV ( c o n t i n u e d )
EIlevel ) 1176 827 734 973
8? 0? 0 6
1033
5?
1176
8?
2566 2566
4 4
2566
4
2566
4
17~@ 3 8
4 1.3 0.6 1.1 1.0 2.7 1,9 3.3 7 1.0 0.5 0.4 2.6 2.1 2.3 1.1 2.2 0.6 1.0 2.2 0.8 0.9 0.6 1.6 1.1 2.5 0.7 1.3 0.8 0.4
a(K)exp were n o r m a l i z e d to a(K)(M1)=l.035 for 96.67, ce(K) a n d ce(L) are f r o m F r o m private c o m m u n i c a t i o n of 8 2 C h Z V except w h e r e noted otherwise. Observed only in 78Pf02. Observed only in 82ChZV. For absolute intensity per I00 decays, m u l t i p l y b y 0.171 21. 7 ray not placed in level scheme.
23
86RoZU.
145r_57~aa8_1
NUCLEAR
145La
Levels
from
DATA
145Ba
fl-
Q ( f l - ) = 4 1 2 0 90; S ( n ) = 6 2 1 0 140; S ( p ) = 6 4 0 0 120 85W202. M e a s u r e d : "y, 7"Y, "y(t), ce, fl, fl~ ( 7 8 P f 0 2 ) , "y, 7 7 ( 8 2 C h Z V ) . E(level ) 0. 0
65.9 96.6 189.0 237.9 351.5 475.3 492.2 514.2 544.0 598.9 637.5? 734.0 827.0? 922.4? 973.6 1033.57 1176.87 2566.4
9 ns
78PfO2,82ChZV
Others:
69WiZX, 7 0 0 s Z Z , 7 1 H o 2 9 .
Comments 20
s
145L288-157
Decay
T, /~ 24. 8
2 2 2 2 3 3
SHEETS
2
T l / a : w e i g h t e d a v e r a g e : 2 4 . 2 s 3[ ( 7 8 P f 0 2 ) , 74Gr29. ~/~-=i00. T i / 2 : f r o m 252Cf SF d e c a y (74CIZX).
25.2 s 26
(77Sk02);
others:
79En02,
3 2
2 5
7(145Ce)
from
t45La
fl-
Decay
78Pf02
M e a s u r e d : 7 ( 7 7 S R O 2 , 8 2 C h Z V , 7 8 P f 0 2 ) , ~/7 ( 7 6 P f 0 2 , 7 7 S k 0 2 ) , fiT, XT(t), ce, f l - ( 7 8 P f 0 2 ) ; f13' ( 7 6 S t 0 3 ) ; see a l s o 7 6 L o Z T , 7 4 A r 1 7 . M1 f o r l o w e n e r g y 7's: f l - f e e d i n g is f r o m b a l a n c e o f I(~/+ce) w i t h I ( 3 5 5 . 6 7 ) = 3 . 6 3 % 6 7 a s s u m i n g 4 8 . 2 , I18.2, 164.1, 169.8. 7 8 P f 0 2 d i d n o t s e e I013' a n d 1 6 0 7 a s s i g n e d b y 69WiZX to 14SLa f l - d e c a y . IV n o r m a l i z a t i o n : I(355.6~)=3.83% 67 (66RoZT). E f t - ( 0 . 0 l e v e l ) = 4 1 0 0 100 f r o m 7 8 P f 0 2 ; o t h e r : 4110 150 ( 7 8 S t 0 3 ) , lfl-(0.6 level)=15 5 from 78Pf02. E~ ~ 48.2 64.3
E(level) 5 2
70,0 I17,I?
2
116.2 164.1 169.8 x234.7 238.0 266.5 291.4 312.0 327.4 355.8
2 2 2
118.2 64.3
7O.O
l'y~t
Mult.
a
38 27
i f MI E2
lO.O 10.45
8
283
if
3 35
M1
234.1
2 2 2 2 2
118.2 234.1 234 I 355 522 355 1021 959 355
9 2 9 5 5 9
x360.5
2 2
377.0 387.9 403.6
2 2 2
447.2 505 7 522 2
430.2 435.5 447.4 452.0
2 2 2 2.
664 505 447 522
3 7 2 2
95 71 84 15 26 4 28 4 20 iOO 25 34 17 25
if if if
Comments E'y,IT: o b s e r v e d in 77Sk02. l'y: f r o m 6 6 R o Z U . Mult.: K/L=O.8 2 (78Pf02), E7: f r o m c e ( K ) , ce(L), ce(M) o b s e r v e d spectra (78Pf02). B ( E 2 ) ( W . u . ) = 7 6 18. Mult.: f r o m Jvr for 70.0 a n d g.s. Observed only in 77Sk02, supported 77Sk02.
by
in
IT: I'),=3.83% 6 7
77 f r o m
76Pf02,
(86RoZT).
Suggested p l a c e m e n t contradict with observed strong coin with 1657 a n d 117%
on
Ce
0 746 0 298 0 271
M1 MI M1
43 44 84 14 Continued
only
next
page
(footnotes
24
at
end
of
table)
in 77Sk02
145~
57~88-2
NUCLEAR
7(14~Ce) f r o m
E(level)
E7t x464.1 484.4 505.2 515.4 591 606 632 644 659 664 668 671 087 721 730 x743 764 x774 786 799 840
0 1 9 8 0 0 2 8 9 5 6 5 1 3 5 5 7?
846.5 883.5 889.6 895.3 932.0? 959.9 1021.5 1036.9 1050.8
1222 1238 1596 1819 1922 1946 2087 2155 2204 2289 2295 2306 x2351 2359 2377 2475 2479 x2526 2542
2 2 2 2 2 2 2 2 2 2 2
840 505 632 2205 708 840 632 708 1690 664 1690 671 1690 840 1690
5
2359.8
2 2
1021.5 1155 840 959 1510 1001 959 959 1001 1166 959 1021 1155 1284 2205 2377 1946 1596 1889 2156 1946 2156 2205 2156 2205 2359 2359 2377
2 2 2
2 2 2 2 2 2 2 3 3 3
1 0 5 5 4 1 8?
5
2
3 3 3 5 5 5 3 5 5 5 5 5
7 0 9 8 4 4 1 7 2 8 6
3 3 3 3
2359.8 2377.1 2543.9 2543.9 2606.9
5 7 6 6 7? 5 6 7? O? 3 O? 8 O? 5 O?
2 5 5 8 9 5 5 9 1 5 5 2 9 6 1 17 5? 5 0 17 0 6 0 6 8 8 1
DATA
SHEETS
145La fl- Decay
175 8 19 45 14 <14 14 25 38 44 10 13 8 48 20 20 20 38 16 16 45 17 <14 1~ 8 22 26 13 <74 74 6 36 21 38 <38 10 23 31 81 17 23 <22 22 25 22 11 11 14 15 36 16 13 20 8 19
t From 78Pf02 except where noted otherwise. $ For absolute intensity p e r 100 d e c a y s , multiply x 7 ray not placed in level scheme.
by
0.0383
25
67.
78Pf02 ( c o n t i n u e d )
5 7 ~ 8 8 - ~o
1451~
145~
58~e87-1
NUCLEAR
145Ce Levels f r o m
DATA
SHEETS
145~ 58~e87-1
14~La fl- Decay
78Pf03
Q ( f l - ) = 2 5 3 0 50; S ( n ) = 4 7 3 0 50; S ( p ) = 9 5 5 0 120 85Wa02. M e a s u r e d : 3` ( 7 7 8 k 0 2 , 8 2 C h Z V , 7 8 P f 0 2 ) , 3`3` ( 7 8 P f 0 2 , 7 7 8 k 0 2 ) , f13`, X3`(t), ce, f l see a l s o 76LoZT, 7 4 A r 1 7 . f l - f e e d i n g is f r o m b a l a n c e o f I(3`+ce) w i t h I(355.83`)=3.83% 67 a s s u m i n g 48.2, 118.2, 184.1, 169.8.
E(level)
Jw
0.0
TI/2
(3/2-)
3.01
min
(78Pf02); MI f o r
/Y3` ( 7 8 S t 0 3 ) ; low
energy
3`'s:
Comments 6
J~r: log f t = 4 . 9 4 to 787.1 l e v e l i n 14~Pr is c o m p a t i b l e only with configuration=(v 3 / 2 1 " 5 3 2 ] ) f o r Z45Ce g.s. a n d configuration=(~r 5 / 2 [ 5 3 2 ] ) f o r L45Pr 787.1 l e v e l . Tl/2: f r o m 80Ya07; o t h e r s : 2.78 r a i n 8 ( 7 9 T a 1 7 ) , 2.98 r a i n 15 ( 7 8 P f 0 2 ) , 3.20 r a i n 24 (81Eb01), 3.1 r a i n 2 ( 6 0 W i l 0 ) , 3.0 r a i n ! ( 5 4 M a 0 7 , 6 5 H o l l ) ; s e e a l s o 7 4 G r 2 9 , 70OsZZ, 69WiZX.
%fl-=lOO. 64. 70 118 234 355 447 505 522 632 664 671 708 840 959 1001 1021 1155 1166 1284 1510 1596 1690 1889 1946 2156 2205 2359 2377 2543 2606
3 0 2 1 9 2 7 2 6 3 8 77 5 5 9 5 2 1 9 8 5? 0? 5 1? 0 6 8 1 9 95
13
2 2 2 3 2 2 2 3 3 2 2
ns
3
Ttl~:
from
78Pf02.
3 2 2
4 4 5 4 5 4 3 4 5 6 19
fl- r a d i a t i o n s
from
145Ce fl-
Decay
86RoZU,80Ya07
M e a s u r e d : 3' ( 8 6 R o Z U , 8 0 Y a 0 7 , 7 9 T a l T , 7 8 P f O 2 , 7 7 B j O 2 , 7 2 0 h 0 8 , 6 7 H o 1 9 ) ; 3`7 ( 8 0 Y a 0 7 , 7 9 T a l T , 7 8 P f O 2 , 7 7 B j O 2 , 7 2 O h 0 8 ) , f13` ( 8 0 Y a 0 7 , 7 8 P f 0 2 , 7 8 S t O 3 ) , f l - ( K × r a y )
(81Eb01),
fl
(8OYa07). Analysis of fl (67Ho19,78Pf02,80Ya07) a n d f13` (78St03,78Pf02,80Ya07) suggests w e a k or no fl to g.s. a n d levels <787 contrary to strong fl to 62.66 level (Efl=2349 10 (24%) (in fl-(K x ray) reported by 81EbOl). Eft-
E(level)
1270 1420 1620 1670 1715
100 50) 200
2530
50)
1" F o r
50) 50
fl-
1210.7 1110.6 845.9 859.7 787.3 0.0
intensity
per
Ifl-t 18.4 3.5 3.3 0.9 66 8 11
22 5 4 4
11
100 d e c a y s ,
Log
It
5.06 9 5.90 9 6.22 8 6.8 2 4.97 8 > 7 . 6 TM
multiply
by
Comments Eft-: f r o m
81Eb01; o t h e r s :
Eft-: f r o m
78Pf02,
1464
200
(78Pf02),
1370 150 ( 7 8 8 t 0 3 ) .
788t03.
Eft-: f r o m 7 8 P f 0 2 ; o t h e r s : 1762 103 (81Eb01), 1800 100 (80YaO7), 1715 100 ( 7 8 8 t 0 3 ) . Ifl-: f r o m b a l a n c e o f I(3`+ce) f o r e a c h l e v e l . F r o m s y s t e m a t i c s for unique fl t r a n s i t i o n s log f t ~ ' t ~ 8 . 5 a n d t h e r e f o r e Ifl~l%. 1.00.
26
15485. . ~ . . 8 7 _ o~.,
NUCLEAR
7(*4~Pr) 17 normalization: E7 t$
E(level)
62.66
62.66
x125 .56 126 58 1 8 9 41 2 0 8 08 2 3 2 47 x 2 5 0 13 x 2 7 8 52 2 8 4 92 x 3 0 4 77 347 45 3 5 1 17
189.33 189.33 555.0 787.3
347.52 347.52 351.17 1210.7
423 436 439 492 499 512 x540 554 x595 x598
77 14 86 27 15 29 04 74 82 03
1210.7 787.3 787.3 555.0 845.9 859.7 555.0
787,3 x634.38 655.85
@
670.51 724.23 x743,71 x756.70 759.77 x765.14
845,9 1210.7 859.7 787.3
1110.6
I(724.237)=59%
3.6
0
4
6
1110.6 1110.6 1210.7 1210.7
MI
5.07
17: f r o m 86RoZT; o t h e r s : 21.0 I0 ( 7 9 T a 1 7 ) , 26 ( 7 8 P f 0 2 ) , 14.1 14 ( 7 7 B j 0 2 ) ; h o w e v e r , 8 0 Y a 0 7 r e p o r t t 7 = 4 6 3. Mult.: a ( e x p ) ~ 4 (78Pf02) if all o b s e r v e d x r a y s from conversion o f 62.68?.
4
3
0 21 2 32 0 36 0283 0 25 0835 0 21
I7=7.94
9 (86RoZT) a n d
0,026
E7,I7:
from
80Ya07;
Mult.: f r o m
a(K)exp
observed
only
El
0.0017
17: f r o m
4 1 1 1 3 5
E7,17: was
86RoZT;
other: 17=0.79 5 (80Ya07),
observed
only
in 80Ya07.
I
2
16 12
5
1 53 0902
2
0
35
0
23
I 1 3
1 60
8 0 Y a 0 7 , 77Bj02.
(not given) (86RoZU).
E%17:
observed
only
in 80Ya07.
4625 0 18
in
2
15 3 49 28 29
with
are
7(1)/7(2)=1.22 (77Bj02,80Ya07), 17: doublet with 17=7,94 9 (86RoZT) and 7 ( 1 ) / 7 ( 2 ) = 1 . 2 2 (77BjO2,BOYa07). Mult.: f r o m a(K)exp (not given) (86RoZU),
2
82
0 0
I7: d o u b l e t
M1
0.78 I 100.0 II 0,II 4 2,75 4 1.14 I 1.15 ! 3
86RoZU,80Ya07
Comments
5
1 . 64 @
x773.04 782,94 786.64 x831.35 x834.89 859.54 863.3 x932.35 xi009.50 x1032.13 1046.5 1110.60 x1118.83 1148.01 1210.78 x1248.28 x1370.51 x1432.10 x1436.28
859.7 1210.7
25
5.75 6 1.86 2 10.1 II 2.15 2 0.44 2 2.1 1 0.23 3 0.53 1 0.44 i 0.50 I 0.5 I 0.58 1 1,64
Decay
58',..e87-
Mult.
0,23 I 1.06 2 1.47 2 1.67 2 4.16 5 0.22 2 0.30 1 13.03 14 0.22 1 1.3 2 4,4 5
x765.69
845.9 787.3
14SCe f l -
145~
SHEETS
7 (78Pf02).
17 iS§ 22.13
from
DATA
20
t F r o m 86RoZU e x c e p t w h e r e n o t e d o t h e r w i s e . $ 7's: 4 6 7 . 5 2 (1.5 1), 1183.1 3 ( 0 . 4 6 5), 1294.3 3 ( 0 . 4 9 4), 1347.0 o b s e r v e d o n l y b y 8 0 Y a 0 7 ; 911.07 o n l y b y 7 8 P f 0 2 . § For absolute intensity p e r 100 d e c a y s , m u l t i p l y b y 0.59 7. @ Multiplet; undivided intensity given. x 7 ray not placed in level scheme.
27
6 (0.12 2), 1 4 7 6 . 4
4 (0.37
3)
were
~
145D591I'86--I
NUCLEAR
.
DATA
145Pr Adopted Q(#-)=1805 7; S(n)=6947 J~
E(level) O.O
62.66
8; 8(p)=6483 8
5.984
4,0
5/2+ (5/2)+
347.52
(3/2+)
85Wa02.
Comments h
ns
154 95 ~D1. 8 6
Levels
T,/2
7/2+
189.33
SHEETS
10
~,~-=1oo.
Jvr: L = 4 i n (d,SHe), log f t = 6 . 7 t o 5 / 2 - . T I / z : f r o m 80Ge11; o t h e r s : 5.98 h 2 ( 6 4 H o 0 3 ) , 5 . 9 5 h 7 ( 5 4 M a 0 7 ) , 5 , 8 8 h 10 ( 6 0 A 1 3 3 ) . T l / z : f r o m Z~ZCf 8F d e c a y (74CIZX). J~r: L = 2 i n (d,ZHe), ? t o 7 / 2 + is M1. Jvr: L = 2 in (d,3He), c o m p a r a b l e I? to 7 / 2 + a n d 5 / 2 + suggest their similar multipolarity. J~v: ? to 7/2+ is m u c h w e a k e r than ? to 5/2+ as m a y be expected E2 versus Mt transitions.
16
351.17 787.3
7/2+ (5/2)-
845.9
(3/2)+
555.0
859.7 960
J~v: L=4 in (d,SHe), strong 7 f r o m (5/2)-. J~r: 7 to 5/2+ is El, log ft=4.94 f r o m t4SCe g.s. is compatible only with configuration=(Ir 5/2['532]) for 787.3 level in 14SPr a n d configuration=(u 3/2['532]) for i45Ce g.s.; L=(1) in (d,aHe) contradict with J = 5 / 2 - a n d with observation of strong 232.47? to L=4 level 555.0. Jvr'. L = 2 i n (d,3He), n o ? t o 7/2+. J~r: L = ( 4 ) i n (d,3He). J ~ : L = 2 i n (d,SHe). E ( l e v e l ) : 1090 i n (d,SHe) ( 8 1 V a Z J ) ; 1 0 8 4 i n ( d , 3 H e ) ( 7 8 S a Z P ) . parent, 7 to (5/2)is M1, ? t o 7 / 2 + J~r: l o g f t = 5 . 0 v i a ( 3 / 2 ) -
(7/2+,9/2+)
1110.6
5/2+,3/2+
1210.7
(5/2)-
1244" 1333 1493
14Spr Adopted E(level) 62.66 189.33
347.52 351.17 555.0
Mult.
E7 62.66 126.58
189.41 264.92 347.45 351.17 208.08 492.27 554.74
787.3
845.9
232.47 436.14 439.86 598.03 724.23 788.64 499.15 655.85 782.94
859.7
1110.8
1210.7
?
100 91
512.29 670.51 659.54 759.77 1046.5 1110.60 351.17 423.77 655.85 863.3
100 72 1 100 1 100 ! 10 2 lOO 77.7 9 100 1 24.6 5 4 16 5 1 86 2 t O 1 11 0 5 1 1 0 0 0 11 0 28 1 1266 47 ? 1
MI
? radiations Comments
oL
5.07
B(MI)(W.u.)=O.O0368
E1
1 4
33.6 4 1 0 0 13 24.7 2 4.5 4 I00 1
2O 31 ?
3 7 3
9 1t 203
1148.01
100
1
1210,78
8
4
T Multiplet; u n d i v i d e d
M1
0.026
1
1
intensity given.
28
150.
g.s.
for
-
I
145D~ --2 59=*86
NUCLEAR
7(14~Nd) f r o m
67.100 95 72.500 4 91.1 2 130.95 15 242.913 26 262.886 9 262.94 303.192 9 318.666 6 352.481 5 353.544 64 364.81 25 402.101 80 x424.92 15 5 x448.5? 467.030 32 475.606 24 492.624 5 16 504.65 516.071 15 606.420 58 623.502 6 657.668 5 675.795 5 707.949 12 7t3.224 17 748.278 5 7 7 8 . 7 7 15 780.453 32 848.237 17 864.454 61 869.38 9 669.469? 83 920.710 5 937.049 49 978.969 15 1011 0 2 1012 745 21 I017 999 11 1051 412 5 1088 517 26 1089 882 97 1093 776 16 1150 258 3 1161 039 39 1162 319 67 1177 221 26 1182 483 70 1213 080 64 1218 216 85 1249 731 28 x1259 09 9 1266 126 69 1271 450 85 1285 480 84 1331 416 16 1336 653 41 1338 6? 1403 920 35 1527 050 43 z 1 5 3 2 0 1 7 90
E(level) 67.1 72.50 748.28 1051 41 1403 92 920 72 lOll 22 1051 41 1403 92 1403 92 I011 22 1527 05 1150 26
1403 1527 1150 1162 1527 1527 1403 657
92 05 26 32 05 05 92 67
748
28
780
45 45 28 05 45 72 05 05 05 72 05 41 22 25 25 41 05 32 05 26
780 748 1527 780 920 937 1527 937 920 937 1051 1011 1085 1085 1051 I161 1162 I161 1150 1161.05 1162.32 1249.73 1249.73 1265.6 1285.6 1249.73 1338.6 1338.6 1285.6 1403.92 1403.92 1338.6 1403.92 1527.05
17 §
7.8
7 (80Gell),
E2 M1
76JaOl
p
(62HoI6,54Ma07).
Comments
9.68 3,64
I7:
17=0.20~,
4 (66Bu13).
17:I(3527+3537)=88 17:I(3527+3537)=88
2 2
(80Ge11). (80Get1).
8
1381 3 5 2.3 1.1 6 1.7 6 278 5 5 1 488t 9 1.6 6 10.5 6 18.2 7 334 t 6 10.8 5 3.2 4 10.3 3 370 ~ 8 28.6 9 16.7 9 7.2 4 1.5 3 1,4 4 1.3 4 4.5 6 0.54 1.2 3 2.8 4 1.0 3 12 . 6 6 3.2 4 -<0.3 9 I 3.04 0.8 3
t From 80Gell. $ From ce data in ~4SPm e decay. § For absolute intensity p e r lO0 d e c a y s , x 7 ray not placed in level scheme.
145D~ =o 59--L86
a
Mult. $
17 9 4 9 8 .{` 2 6 14 1 0.63 3.1 3 7.9 5 5.35 12.5 5 2625 70 7 052 1 3 3 1 3 4 ~0 4 4 9 5 8 1 5 48 0 ~ 12 1 1 4 14 3.3 6 45.4 t 12 122 t 2 9 7 9 .{` 14 19.0 8 16.1 8 1O0O 4 1.1 5
SHEETS
z4~Pr fl- Decay
Measured: 7, 77 ( 7 6 J a O I , 7 5 H i 0 3 , 6 9 G r 3 2 , 6 6 B u 1 3 , 6 2 H o 1 6 ) , Ep-=1805 10 ( 6 2 H o 1 6 ) ; o t h e r : <1700 (54Ma07). 17 n o r m a l i z a t i o n : I(7487)=0.525~ 9 (80Gell).
E7
DATA
8697
multiply
by
0.000525
29
9.
was
not
observed
in
(n,n'7).
145~ 591" r 8 6 - - ~ ~
NUCLEAR
14~Pr Measured: % "/(t). Authors a s s u m e d mass E(level )
number
Levels
from
DATA
252Cf
SF
SHEETS
Decay
15495~Dt 8- 6 - - o
74C1ZX
A=143.
Ti /2
0.0 62.6
ns
4.0
f6
7(145Pr) E7
Z~2Cf SF D e c a y
E(level)
62.6
62.6
74C1ZX
Comments 17: I T / S F = O . O 0 1 4 .
l~SPr Measured: E(level)
a(E,O), D W B A
Levels
from
146Nd(d,3He)
MeV
Comments
L$ 4 2 2
E(level): 177 in 78SaZP.
4
E(level): 542 in 78SaZP.
760
(1) 2
(4) 2
E=50
analysis.
0.0 6O 190 337 t 550 810 960 1090 1244 ~ 1333 ~ 1493 ~
from
E(level):
1084 in
78SaZP.
Reported only in 78SaZP. $ F r o m a(e) ( 8 1 V a Z J ) .
30
81VaZJ,78SaZP
o
145~,~ ~ 60~,u85--~.
NUCLEAR
l~SNd Q(#-)=-161.4
25; S ( n ) = 5 7 5 5 . 4
E(level)
7; S ( p ) = 7 9 7 0
Jw
0.0
7/2-
stable
29.4
72.50
t
5/2-
657.67 748.28
1 5
912-
3.7
ps
11
780.45
4
3/2-
0.9
ps
2
919.83 920.72
11 2
t/2-t 9/2-
0.73
937.05 1011 22 1051 41 1085 25 1111 2 1150 26
5 10 f
5/2-t i~/27/2-,5/2-
2
3/2+ t
1 4
7/2-
8
912-
32 7 73 6 8 3 6
3 1 3 2 1
1960
1967.4
6 05 3 3 0 1 6
lO
ns
5
11/2-
ps
15
4 2 ~I 4 5 7 3 7
4
3 3 2 2 6
(512-)
(ti2)-t 512512(3/2)-t 1/2+
J1r: ~/ t o 7 / 2 is M I + E 2 , A J = / Ti/z: from B(E2) i n C o u I . e x .
Jvr: L = 3 J~T: L = 3
in
(n,n'-y); ~ to
in in
(d,p), (d,p),
V(8) f o r V(e) f o r
6 4
11121512(512-)
13/2(912)-
5/23/2+~ 512-,712-
5/2-,7/2(112)(712)512-,7125/2-,7/2i/2+ 1512-
3/2512-,712(1112)5/2+,3/2+
3/2-
3
Jvr: J~r: Jvr: J~v: Jvr: J~r:
L = I i n ( d , p ) , -y t o 7 / 2 - . L=3 in (d,p). L=5 in (3He,a), shell-model. L=2 in (d,t). L=5 in (d,p). L=6 in (d,p).
JTr: L=I J1r: L = 3
in (d,p), "y to 7/2-. in (d,p), ~ to I/2-.
1112-,912-
J~r: L = 5
in
1/2+ 512-
J~v: L = 0 J~r: L = 3
in (d,t). in (d,p), 7 to 1/2-.
on
next
p-
L = 3 in (d,p). L = 3 in (d,p). L=t in (d,t); n o V to 5/2-,7/2-. L = 3 in (d,p), similar m u l t of "f to 7 / 2 - , 9 / 2 - (similar IV). L = 3 in (d,p). 7 to 13/2+ is A J=2, E2; V to 15/2- is AJ=I, D(+Q). L = 3 in (d,p). L = 0 in (d,t). ~ to 11/2- is AJ=2, E2.
s12-
Continued
7/2+
JTv: J~r: J1r: Jvr: J~v: J1r: J~r: Jvr: J~:
(d,t).
4 2
via
12497 in (n,n'v). 12187 in (n,n'v).
7 10 5
11/2-.
J~r: L = 0 i n ( d , t ) . J1r: L = 3 i n ( a , 3 H e ) , s i m i l a r mult f o r "y t o 3 / 2 and 5/2(comparable IV). J~r: V t o 1 1 / 2 - is A J = 0 , D+Q i n ( n , n ' v ) . J~r: V t o 1 1 / 2 - is A J = 2 , E2, -y t o 1 3 / 2 + is A J = I , D. J1r: l o g f t = 8 . 0 v i a 7 / 2 + p a r e n t , V to 3/2+ and 3/2-, log f t contradict with L=I in (d,p) observed by 73Ga01, note different branching f o r V's f r o m this level in (n,v) and decay. J1r: V to 9 / 2 - is AJ=2, E2; 3' to 11/2- is AJ=I, D. J1r: L = 5 in (d,p); log ft=8.0 via 7 / 2 + parent. Jx: ~ to I/2-, V to 7 / 2 - is D+Q.
9/2-,II/213/2+,11/2+
3
> 6 , 1 0 Is y ( n o a ) (651501). J~r: a t o m i c beam (76Fu06), L=3 in (d,t). /~=-0.654 4 (78LeZA). Q = - 0 . 2 5 3 10 ( 7 8 L e Z A ) . Ti/z: from 14SPm v-decay. Jvr: V t o 7 / 2 is E2, L = I i n ( d , t ) . J~: V to 7/2is MI, L = 3 i n ( d , p ) , V f r o m 3/2+. /~=-0.320 4 (78LeZA). TI/z: f r o m i45Pm c decay. J=: V to 7 / 2 - is AJ=2, Q; L=5 i n ( d , t ) . J1r: L = 5 i n ( d , t ) , V t o 7 / 2 is M r + E 2 . TI/2: f r o m B(E2) i n C o u l . e x . TI/2: f r o m B(E2) i n C o u l . e x . J1r: L = t i n ( d , t ) , ~ t o 7 / 2 - .
J~: L=6 in (d,p), no V to 9/2-. J1r: L = 3 i n ( d , p ) , V t o 1 1 / 2 - ; c o n t r a d i c t V(e) i n ( n , n ' 7 ) . J~: V to 7/2and 3/2with comparable IV, l o g f t = 9 . 0 parent. J1r: -/ t o 1 1 / 2 - , V t o 7 / 2 is A J = / M I + E 2 , C o u l . e x .
17/2+ 6
85Wa02.
J1r: -/ to 11/2- is A J=0, MI+E2. J~: 3' to 5 / 2 - is D+Q, V to 9/2-.
(512)-
1401 .2 2 1401 .3 1403 . 92 4
1427 1527 1532 1533 1576 1591 1592 1654.0 1681.3 1709.9 1713 1714.0 1715.4 1726.3 1744.8 1762 1802.0 1820 1822 1846 1874.3 1884.5 1917.5 1940 1954 1957.3
0.72
ns
(1312)+
3
Levels
T1/z: > I . 1 0 I~ y ( 6 6 K a 2 3 ) ; o t h e r :
3/2-
1162 1213 1249 1285 1316 1326 1338
145MA 60 ~', ,,~ 8 5 - -
Comments
2
05
Adopted
SHEETS
T~/~
67.22
1161
3
DATA
page
(footnotes
31
at
end
of
table)
~.
145MA _"~ 6 0 , , ~ 8 5 ,~
NUCLEAR
DATA
14~Nd Adopted
2004.1 4 2011.8 2018 6 2035.7 6 2054 2 2090 6 2107.2 2124 4 2125 4 2133 6 2148.0 6 2181.0 2176 3 2204 2 2223 3 2246 8 2270.4 2291 3 2331 3 2347.6 2355 3 2374 3 2408.2 2421.1 2423 10 2427.3 2449 3 2471 6 2481 3 2510 3 2533 3 2534.4 2546.8 2566 3 2606 3 2620 2626.2 2643 6 2647 2 2670 3 2703 27t3 3 2717 2 2748 3 2752 2 2781 3 2799 2 2810 3 2826 2 2839 3 2858 3 2886.8 2882 3 2907 6 2914.7 2938 3 2977 3 3001 6 3 0 2 6 10 3027 3 3030.3 3051 3 3086 6 3117 3 3140 3 3 1 5 3 10 3159 3 3181 3
3/2-
171211/2-,8/23/2(5/2)+ t 3/z3/2+,5/2+
(11/2-,9/2-) 1/2-,3/2-
5/2+,3/2+ 5/2-,7/2I/2-,3/23/25/2-,7/21/2-,3/219/2-
5/2-,7/219/221/2+ I/2-,3/2-
5/2-,7/2i/2-,3/2-
6o"'.'e5
Levels (continued)
J~
E(level)
145 N.T....]
SHEETS
Comments J~: L=I in (d,p), ? to 7/2-. Jvr: -f to 13/2- is AJ=2, E2; ? to 15/2- is AJ=I, D+Q. J~: L=5 in (d,p). J~r: p r i m a r y 7 f r o m I/2+ (n,?) state, ? to 7/2-.
Jlr: J~r: Jlr: J~r: J~r:
L=5 (80Ja15) and/or L=I (73Ga01) in (d,p). primary "y f r o m 1/2+ (n,?) state, ? to 7/2-. L=(5) in (d,p) (80Ja15); contradict with L=(I) L=2 in (p,d). L=(5) in (d,p).
J~r: J~r: J~r: JTr: J1r: Jw: Jlr: J~r: J~: J~r: JTr: Jlr: J~r:
L=I in (d,p). L=2 in (d,t). L=3 in (d,p). L=I in (d,p). L=I in (d,p); ? to 7/2-. L=3 in (d,p). L=t in (d,p). ? t o 1 5 / 2 - is A J r 2 , E2; ? t o 1 7 / 2 - is A J = I , D. L=3 (80Ja15) or L=I (73Ga01) (d,p). L=3 in (d,p). ? f r o m 2 1 / 2 is A J = I , D; ? t o 1 5 / 2 - ; n o 7 t o < 1 5 / 2 . ? t o 1 7 / 2 + is A J = 2 , E2; n o ? t o < 1 7 / 2 ÷ . L=I in (d,p).
J1r: L = 3 i n ( d , p ) . J1r: L=1 i n ( d , p ) . J~r: i n ( d , p ) : L = ( 6 )
(80Ja15);
L=I+5
(75Hi03);
in
(d,p)
(73Ga01).
L=3 (73Ga01).
21/2-
J~r: ? to 17/2- is AJ=2, E2; ? to 19/2- is AJ=I, D; n o ? to <17/2-.
5/2-,7/2i/2,3/2
J~: L=3 f r o m (d,p). J~: p r i m a r y ? f r o m
+1/2 (n,?) state.
5/2+t 3/2-
J1r: J~r: J~r: J~r: J~r: J~r:
primary ? from L:(3) in (d,p). L=2 in (d,t). L=I in (d,p). L=2 in (d,t). L=I in (d,p).
21/2
J~r: J~r: J~r: J~r: J1r:
L=I L=0 L=I L=I ? to
25/21/2-,3/2-
J~: ? to 21/2is A J r 2 , J~r: L = I i n ( d , p ) .
1/2-,3/2(11/2-)
I/2-,3/223/2
J~r: J~r: J~r: J~':
(11/2)-
J1r: L = 5
(5/2-,7/2-)
(512)+t i/2-,3/2(5/2)+t i12-,3125/2+t 1/2-,3/21/2+ I/2-,3/2I/2-,3/2-
Continued
1/2+
in (d,p). in (d,t). in (d,p). in (d,p). 19/2is A J = I ,
(n,?)
D; n o
state;
?
E2; n o
to
?
?
to 7/2-.
<19/2.
to
<21/2-.
L=I in (d,p). L=(5) in (3He,a), lhll/2 hole state. L=I in (d,p). ? t o 2 1 / 2 is A J = t , D+(Q); n o ? t o < 2 1 / 2 .
in
on
(3He,a),
next
lhli/2
page
hole
(footnotes
32
state.
at
end
of
table)
_O "
NUCLEAR
145~T~ 60L, u 8 5 - - ~ ,q
DATA
SHEETS
145M,,l 8 0 L ' ~ 8 5 - o0
145Nd Adopted Levels (continued)
3220 3270 3349 3517 3517 3961 4081 4217 4568 4847 5512 6081
Comments
Jw
Z(level)
1/2-,3/225/2
J~r: L = I i n ( d , p ) . J~: 7 to 2 1 / 2 + is AJ=2, E2; no 7 to < 2 1 / 2 + . J~r: 7 to 2 3 / 2 is A J = I , MI+E2; no 7 to <23/2.
27/2
J~:
29/2
Jlr: 7 to 2 5 / 2
31/2 33/2
J1r: 7 to 27/2 is AJ=2, E2; no 7 to <27/2. J1r: 7 to 31/2 is aJ=l, D; n o 7 to <31/2. J~: 7 to 33/2 is AJ=I, (D+Q); no 7 to <33/2.
25/2+
4 1 2 7 5 7 4 2 6 5
(35/2)
7 to 2 5 / 2 -
is A J = t , is AJ=2,
L and
vector analyzing p o w e r
E2; no
7 to <25/2.
in (d,t).
i45Nd
E(level) 67.22 72.50 657.67 748.28
780.45
919.83 920.72
937.05
1011.22
1051.41
1085,25 1111.2 1150.26
1161,05
1162.32
1213.7 1249.73
1310.8
7 to < 2 5 / 2 - .
4
t From
1285.6
D; no
E7 2 4
657.668 91.1 2 675.795 748.278 707.949 713.224 780.453
140.2
5 5 5 12 17 32
2
852,73 10 282.886 9 848.237 17 920.710 5 61 864.454 869,469? 83 937,049 49 262.94 353.544 64 1011,0 2 1 3 0 9 5 15 303 192 9 9 7 8 9 8 9 15 1051 412 5 I012 7 4 5 21 1 0 1 7 9 9 9 11 453 5 4 0 2 101 8 0 492 824 5 1150 258 3 1088 5 1 7 2 6 1093 778 16 1161 039 39 5 0 4 6 5 16 1089 882 9 7 1162.319 67 1146 6 2 i 1 7 7 221 2 6 1182 483 70 1 2 4 9 731 2 8 1213 0 8 0 6 4 1218 210 8 5 1285 4 8 0 8 4 1244 5 2 1249 7 2
7
radiations
6
M u l t . ?$
17
67.22 72.500
Adopted
Comments
i00 I00
E2 Mt
9,61 3.64
I00 1.4 I 87,8 4 100.0 4 I00 4 85 4 41 # 1.9 10 I00 0.36 2 46.1 4 100 1 4 6 10 34 12 100 2 0 76 7 100 14 23 9 0,14 7 2.81 2 100 1 76 1 58 3 100 4
E2
0.006
I00 0.34 14 1 100 1
8(MI)(W.u,)=0,0173 8:<0.15 (70Ka36).
0,005
B(E2)(W.u.)=8.3 6.
+1 . 2
B(E2)(W.u.)=2.2 3.
MI+E2
+0.75
MI+E2 D+Q MI+E2
-0.11 -0.23
B(E2)(W.u.)=10.0 6.
11
0.044
MI+E2
D 11
D+(Q)
38 2 36 1 100 3 6 . 6 24 19 3 100 5 100 100 6 21 4 63 8 100 2 9 93 2 9 71 21 98 10 100 10
Continued
E2 MI+E2
B(Z2)(W.u.)=29.2 13.
on
MI+E2
-0.87
+48-83
MI+E2 D+Q
next
page
(footnotes
33
at
end
of
table)
13,
NUCLEAR DATA SHEETS
i 46 50 ~~1T, A _ A--r .~85
145Nd Adopted E(level) 1326.3 1338.6
1401.2 1401.3 1403.92
1427.6 1527.05
1532.3
1533.3 1576.0 1591.1 1592.6 1654.0 1681.3 1709.9 1714,0
1715.4 1726.3 1744.8
1802.0 1874.3 1884.5
1917.5
1957.3
1967.4
2004,1
E~
318.666 352.481 467.030 623.502 1331.416 1336.653 1403.920 679.2 769.9 364.81 475.606 516.071 606.420 778.77 869.38 1527.050 318.7 784.1 1464.8 1532.3 1460,8 1503.2 1578.3 1591.5 1525,4 906.3 1654.0 1881.3 308.5 598.7 794.1 933.4 1646.8 704.4 715.3 964.4 1671.8 1677.4 1743.6 1144.3 1874.3 964.4? 1812.3 1816.9 1884.6 667.3 704.29 1916.9 707.9? 1177.37 1957.3 754.5 915.8 1900.7 1967.4 754,5 1936.8
6
5 32 6 16 41 35
25 24 15 58 15 9 43 4 4 7 2 10 4 4 5 ? 2 4 7
2 2 19
3 20 7 7 3 7 3 9 18 3 10 3 10 3 4 4 4 4 3 4 3
100 43 100 9
(continued) Comments
d
M u l t . ?$
17
1259.1 2 1266.126 69 1271.450 85 1338.6 743.67 10 1400.9 ? 290.1 743.6 26 242.913
5' radiations
145MA 80~,~85
11 14 2
1 0 0 19 3.2 16 11 100 4.4 4
37 1 100 2 7.0 58 2 18 1 4.66 13 1 71 100 3.6 58 4 10O 7 24 4 7.9 7.9 21 3 <20 10 3 2 7 14 lOO 2 100 <16 IOO 2 9 100 100 100 33 96 25 100 73 100 I00 19 78 17 7 2 14 100
Q+D
D+(Q)
-0.05
E2 Note discrepancy in b r a n c h i n g for 7's f r o m 1403.02 level in (n,?), ~ decay a n d (n,n'?).
7
E2 D "/4
36 43
D+Q
D+(Q)
-0.iz
E2
E2
5.8 11 1 0 0 11 56 6 14 5 100 tO0 <32 1 0 0 21 5 9 12 32 90 8 100 40 5 4 10 <88 <100 9.6 24 <40 50 29 50 20 lO0 30 <67 83 22
Continued
on
next
pa~e
(footnotes
34
at
end
of
table)
--A .-~
145~,~ 60~85
_~
NUCLEAR DATA SHEETS
,-'
145Nd Adopted E(level) 2004.1 2011.8 2935.7 2107.2 2146.0
2161,0
2270.4
2347.6 2408.2 2421.1 2427.3
2534.4 2546.8 2626.2
2703
2866.8
2914.7 3030.3 3220
3270.4 3349.1 3517,2 3517.7 3961.5 4081.7 4217.4 4568.2 4847.6 5512.5 6081.4
E~ 2004.1 584.1 610.5 1968.6 2035.2 2040.2 2107.2 984.8 995,6 2146.0 911.2 1240.1 1503.2 2160.9 1056.9 1350,4 1489.9 2204.11 2271.3 637.9 946.3 1007.0 711.2 552.5 1265.8 1506.4 1769.0 2428.1 186.6 522.6 831.4 1706.6 1845.9 3558.4 1489.97 2635.8 2703.7 445.5 458.6 519.3 380,3 163.5 609.2 1506,6 2007,4 2440.6 849.3 318.8 246.8 603.0 691.1 732.6 255.9 1050.5 279.4 664.9 568.9
17 3
5
3 2 6 4 3 4 3 8 2 6
4 2 5 6 7
13 6
6
8
100 53 100 100 28 100 50 50 100 29 24 100 <15 47 5 10 25 100 15 57 100 100 100 12 <100 59 36 II 13 100 I00 100 97 48 <77 100 34 ~25 38 I00 100 100 100 25 20 100 100 100 100 100 100 100 100 100 100
7 radiations
145~4d85-5 60'"
(continued)
Mult.~
22 E2 D+Q
-0.11
17 19 10 12 29 19 1 2 5
D E2 E2 6 12 12 5 D E2
-0.07
21 21
D+Q D+(Q) D+(Q) E2 D+(Q)
E2 Mr+E2
-0.03 +0.07 +0.05
+0,19
D E2 B2 D+(Q) (D+Q)
-0,03
T's w i t h s i g n i f i c a n t 5 (deduced from 7(0)) are assumed to ~: F o r 67,22 T a n d 72.5T f r o m 14~Pm E d e c a y , f o r 6 5 7 , 6 7 7 a n d
35
be M I + E 2 a n d 675.7957 from
n o t El+M2. Coul. ex.
145 M,..I _~ 6o,,,~85 ,~
NUCLEAR
t45Nd
Levels
from
DATA
t4~pm
145M,4 _~ 6o,,~,85 ,~
SHEETS
~ Decay
74ToO4,59Br65
M e a s u r e d : 7, K x r a y , (K x r a y ) "y-coin (74ToO4,59Br65), "y(t) (59Br65,67MyOi,70Ka36). I(K x ray)/I(677+727)=23.8 ? (59Br65), L x r a y / K x ray=O.161 16 (72Ni16). E(level) 0.0 87.2 72.4
1
Jn T 7/23/25/2-
T , / 2 :~
2 9 . 4 n s 10 0 . 7 2 ns 5
Y Adopted values. * Quoted by 70K636 (see 67My01). See also 59Br65.
~,(145Nd)
from
t38Xe(13C,4n'y)
E=49-60
MeV
83HaZC
M e a s u r e d : 7, 77, 7(0), 7(t), y i e l d . E7
E(level)
72.5 90.6 163.5 186.6 246.8 255.9 262.6. 279.4 290.1 308,5 318.8 353.3 380.3 x385.2 445.5 x448.2 453.5 458.6 x498.4 519.2 522.6 568.9 584.1 598.7 603.0 609.2 610.5 x832.7 637.9 657.7 664.9 675.7 679.2 691.1 704.4 711.2 715.3 732.8 743.6 748.3 769.9 831 .4 849.3 946.3 1007.0 1050.5
72.5 748.3 3030.3 2534.4 3517.2 4217.4 1011.0 4847.6 1401,3 1709.9 3349.1 1011.0 2914.7 2868.8 1111.2 2866.8 2866.8 2534.4 6081 .4 2011.8 1709.9 3517.7 3030.3 2011.8 2347.8 657.7 5512.5 748.3 1427.6 3961.5 1715.4 2421.1 1726.3 4081.7 1401.3 746.3 1427.6 2546.8 3270.4 2347.6 2408.2 4508.2
IT ~:
11 2
Mult. t
D+(Q) D
9
D+Q
5
D+(Q)
5 19 6 5 12 <2 1 <30 3
D+(Q) D+(Q) MI+E2 141+E2 g2
D D+(Q) D+(Q) E2
8 26 13
E2 E2 D
15
D+Q
Comments
+0.05 -0.07
Mult.: Az=-0.10 3, A4=-0.01 3. Mult.: Az=-0.29 5, A4=+0.02 7.
-0.11 -0.03 -0.05 -0.12 +0.19 -0.23
Mult.: Mult.: Mult.: Mult.: MulL.: Mult.: Mult.:
Az=-0.21 Az=-0.28 Az=-0.21 Az=-0.29 A2=+0.06 Az=+0.13 A2=+0.35
2, 7, 3, 2, 3, 5, 4,
Mult.: Mutt.: MulL.: Mult.:
A2=-0.10 Az=+0.15 A==-0.03 Az=-0.24
5, A4=-0.70 30. 24, A4=-0.70 30. 1, A4=-0.02 I. 11, A4=+0.04 13.
D+Q
8 16
4 100 2
$
-0.03 +0.07
A#,=+0.00 A4=+0.05 A4=+0.02 A4=+0.00 A4=+0.01 A4=-0.01 A,=-0.13
2. 9. 4, 2. 3. 5. 4.
Mult.: Az=-0.10 4, A4=+0.03 5. MulL.: Az=+0.34 2, A4=-0.11 3. Mult.: A2=+0.23 5, A4=-0.03 6. Mult.: Az=+0.26 2, A4=-0.08 2. Mult.: A~=-0.21 3, A4=-0.00 3; 6=0.0.
-0.11
MulL.: A z = - 0 . 2 8 3, A 4 = - 0 . 0 0 3.
D E2 (D+Q)
Mult.: A z = - 0 . 2 5 5, A4=-0.01 6; 6=0,0. MulL,: A2=+0.26 I, A 4 = - 0 . 0 8 1. MulL.: A~=-0.01 11, A4=-0.11 13.
5
E2
Mult.: A2=+0.34 4, A4=-0.11 5.
5 27
E2 E2
Mult.: A~=+0.20 8, A4=-0.03 10. Mult.: A2=+0.24 2, A4=-0.09 2.
3 47 8 7
E2 E2 MI+E2 D
Mult.: Mult.: Mult.: Mult.:
16 7
E2 E2
MulL.: A2=+0.27 3, A4=-0.07 3. Mult.: A2=+0.20 4, A4=-O.IO 5.
4
E2
Mult.: Az=+0.18 5, A4=-0.05 6.
t A s s u m i n g t h a t M2 c a n n o t c o m p e t e ~: At E(t3C)=56 MeV. x 7 ray not placed in level scheme.
+t.2
with
E2 a n d
A2=+0,25 Ae=+0.26 Az=+0.64 Az=-0.23
El.
36
5, 1, 5, 3,
A4=-0.15 A4=-0.08 A4=-0.08 A4=+0.05
7. 1. 6.
3; 6=0.0.
145klA 60,,~85
--7
NUCLEAR
7(145Nd)
from
DATA
144Nd(n,7)
Measured: 3' (75HiO3,75NaZE), 77 (75Hi03). J~r((5756 2) level)=I/2+ f r o m capture of the t h e r m a l
E~§
E(level)
XTO 4 8 67 1 2 72 2 140 22 x302 3 3 x310 4 2 352 7 2 x380 8 2 x413 4 3 x426 9 2 x 5 4 4 6 17 x546 9 ? x552 9 2 x556 4 3 x564 0 2 x584 1 3 623 6 2 x628 9 2 x645 3 2 x650 0 2 x659 0 2 x667 9 6 x673 1 3 x676 5 6 x681 6 ? x 6 8 4 2 14 708 2 2 713 4 2 x724 5 6 x737 8 7 x749 1 5 x 7 7 3 0 13 780 5 2 x 7 8 9 8 13 794 1 2 x811 9 2 852 8 ~ 2 x876 8 2 x8834 4 x889 8 9 x906 8 2 x920 7 4 x924 2 3 933 4 2 x937 0 2 x94642 9644# 3
x968 x1029 x1033 x1042 xi046 1050 x1052 1056 x1088 x1097 x1101 x1105 Xl141 I146 xtt61 x1165 1177
67.1 72.2 920.2
1403.8
1403.8
780.4 780.4
780.4 1714.0 920.2
5 9 5 9 1 9 6 62
7 8 2 9 6
1714.0
1744.8 1884.5
1050.9 2270.4
7 6
I 2 0 4 0 3
ET§ 1181 x1204 1213 1218 1244 1249
1.95 0.4 1 0.72 2.45 1.I 2 1.02 0,3 f 0.3 1 0.5 1 2.86 0.6 1 2.1 4 1.1 2 0.82 0.7 2 0.6 1 0,5 1 1.22 0.3 f 0,8 2 0.4 1 0.6 1 0.72 26.2 26 18.3 18 0.72 t.5 3 0.72 0,3 1 9.09 0.3 t 3.6 7 5.9 8 I O 0 t fO
x1265 x1268 x1271 1285 x12927 x1304 x1314 x1323 1331 x1333 1337 x1346 1350 x1356 x1366 x1376 x1378 x1386 x1389 x1395 x1402 x1408 x1450 x1471 1489
1213,7
1249.7
0,5 0.4 1.22 0,6 1.02 286 677 1 0 1 1# t 1# 072 072 092 0 6 072 1,4 082 0 5 204 t 0 1 1 0 5 1 5 17 5 449 072 072
5
4 0 3 5 7 9 1 5 0
E=thermal
neutron
75Hi03
with
L=O.
E(level )
17 t
1249.7
3 3 2 2 2
0.8 1.63 2.8 2,1 4.8 <4.9 4,9 2.24 1.3 4.28 1.3 1.02 1.3 1,0 1.9 1.5 0.82 0.7 0.4 I . 1 1.73 0.72 4,45 1.1 0.5 0,82 0.6 1.43 1.7 3.26 1.94 2.7# 2.7# 6.16 6. 1 3.47 2.04 11.3 1.33 0.63 1.43 2,8 2.55 19 2
1285.3 1285.3 1316,8 1249.7 1316,8
2 2 3 2
1285.3
5
2 6 3 7 2 7 2 5 2 7 4 4 4 2 4 4 2 9 2 5 9 1 2 2 4 4 4 6 3 6 5 5 15 9 15 3 8 7 8 9# 6
1403.8 1403.8
2270 . 4
2270.4 2703
x1506.6
8
x1512.3 x1520 1525 x1556 x1594 x1613 1648 x1660 1671
19 19 6 11
8 9 8
19 19 20
1714.0
1677 x1688 1706 x1739 1743 x1759 1812 1816 x1821 x1832 1845 1884 x1895 1936 1968 2007 2035 2040 2107
4 7 7 19 6 13 5 22 8¢ 9 16 3 9 9 18 6 f2 8 9 9 6 8t 7 6 9 11 6 5 4t 2~ 2~ 2~
1744.8
3220
0.82
1 4 8 15 0 9 44
7 4 9 8
i.~i"
i45~,TA _~ 6 0 ~ ' '-~ 85 --
SHEETS
f 1 I
5 5 2 1 6 5
1592.6
1744.8
Comments 2 5 4 5 5 3 3
3 2 4 3 2 1 2
2 I 1 3
5 6 6
11
5
2 2 2
1 3 ! 2 2 1 18
Continued
on
next
paje
2626.2 1744,8 1884.5 1884,5
3.4? 2.04 2O4 173 286 1 It 337 184 475 1 51 1 31 0 61 0 31
2626.2 1884.5
2004.0 2035.7 3220 2035.7 2107.2 2107,2
(footnotes
37
10.6 11 2.55 2.96 1.63 2.6 t 2.86
at
end
of
table)
E?,IT: data of 75Hi03 reevaluated b y 77Mc09, see also 75NaZE.
145 ~T,4
NUCLEAR
60,,u85-~
T(14~Nd) f r o m
ET§ 22o4.15 2271.35 2440.6 25355 2558.45 2635.85 2703.75 30515 31295 34865 36505 37195 38725 4011 40425 4163.3 20 4542.0 20 4836.9
4975.8 5687.5
t 5 § # x
E(level)
17t
2270.4 2270.4 3220 (5756) 2626.2 2703 2703 (5758 (5756
11.o5 i .65
(5756 (5756) (5756) (5756) (5756) (5756) (5756) (5756)
(5756) (5756) (5756)
20 20 20
DATA S H E E T S
t44Nd(n,-y) E = t h e r m a l
75Hi03 ( c o n t i n u e d ) Comments
1.2
5.15 t .45 3.55 1.2:1:
6.25 8.85
1.55 0.75 3.55 3.05
26.1
ET: f r o m
75NaZE.
7.25 15.0 11,0 97.0
13.0 1.2
15 11 97 13
3
R e l a t i v e 17. F r o m 75NaZE. 334.17, 439.67 a n d 506.37 f r o m 75Hi03 p r o b a b l y Multiplet; undivided intensity given. 7 ray not placed in level scheme.
T(14SNd)
from
b e l o n g to tS°Sm.
'44Nd(n,T)
E=resonance
M e a s u r e d : 7. S(n)=5755.4 7. J~r(S(n)+0.374 l e v e l ) = I / 2 + f r o m c a p t u r e of t h e r e s o n a n c e n e u t r o n s J1r(S(n)+1.298 l e v e l ) = I / 2 + f r o m c a p t u r e of t h e r e s o n a n c e neutrons J1r(S(n)+l.628 l e v e l ) = I / 2 + f r o m c a p t u r e of t h e r e s o n a n c e n e u t r o n s E7 709 712 779 852 1145 1246 1251
4 9 5 2 8 0 6
1671 1677 4011
8 4 3
t
E(level) 20 20 10 10 10 20 20 20 20 20
780 3 780 3 780 3 919 6 1213 3 1318 4 1318.4 1744.8 1744.8 S(n)+0.374
R e l a t i v e IT i n
14 5~TA 601, u 8 5 - - uo
I7 ? 32 17 7 96 26 15 19 18 14 19
ET
4 3 3 3 2 2 2 4 3 2
t h e d e c a y of 0 . 3 7 4 - e V
77Mc09
w i t h L=0. w i t h L=0. w i t h L=0.
E(level)
IT ? 26 6 80 4 95 3 0 55 14 70 2 2 59 2 3
4543.3
20
4836.6
20
4978.1
20
S(n)+0.374 S(n)+0.734 S(n)+0.374 S(n)+0.734 S(n)+1.628 S(n)+1.298
5689.1
20
8(n)+1.628 S(n)+0.374
58 23
4
S(n)+1.298
46
17
18
resonance.
145Nd Levels f r o m
144Nd(d,p) E=I£.I MeV
80Jar5
O t h e r s : E=33 MeV (75Hi03); 12.6 MeV (73Ga01). M e a s u r e d : a(E,8), DWBA a n a l y s i s . Levels: 1400 (L=I, CzS'=0.02), 1578 (L=3, CZS'=0.25), 1988 (L=I, C2S'=0.01), 2160 (L=t, C28'=0.05) w e r e o b s e r v e d o n l y i n 73Ga01; l e v e l 2152 (L=3+5, CZ8'=0.38+0.31) o n l y E(level) 0.0 68 3 656 6 749 3 780 3
J~$
t
7/23/211/29/23/z-
Lt 3 1 5 5 1 Continued
cZs,? 4.08 0.21 0.25 2.17 1 .41 on
next
pa~e
(footnotes
38
at
end
of
table)
in 75Hi03.
NUCLEAR DATA SHEETS
145~A _o 60~,u85 a
145Nd
E(,level) 919 937 1110 1150 1213 1250 1284 1331 1400 1528 1575 1592 1653 1684 1713 1744 1762 1822 1846 1885 1913 1969 2004 2018 2090 2117 2133 2176 2223 2246 2270 2291 2331 2355 2374 2423 2449 2471 2481 2510 2533 2566 2606 2827 2643 2670 2713 2748 2781 2810 2839 2858 2882 2907 2938 2977 3001 3027 3051 3086 3117 3140 3159 3181 3214 t
3 3 3 6 6 3 6
3 3 3 6
6 6 3 3 6 3 3 6
3 6 6 6 6 6 3 3 6 3 3 3 3 3 3 3 6 3 3 3 3 3 3 6 3 3 3 3 3 3 3 3 6 3 3 6 3 3 6 3 3 3 3 3
Levels
Lf
J.t
?
1/25/213/2+
7/2I/25/25/2(5/2)9/25/2-,7/2(1/2)(712)5/2-,7/25/a-,7/23/2-
5/2-,7/29/2-,11/213/2+,11/2+ 3/2-
5/25/23/211/2-,0/2-
0,58 1.13 3.70 0.05
3 3 3 1 5 3 1 3 3 3 1 3 5 6 1 3 3 t 5 5
0.24 O.OI
1/2-,3/2-
1 3 1 i 3 1 3 3 1 3 1 (6 3 3 (3 (3 (3 (t (S (3 1 1 1 1 1 (3 (1 1 3 1 1 i 1 1 3 3 3 1
5/2-,7/21/2-,3/2512-,712I/2-,3/2-
(5/2-,7/2-) 1/2-,3/21/2-,3/21/2-,3/21/2-,3/z1/2-,3/21/2-,3/21/2-,3/21/2-,3/2-
112-,312-
E=I2.1
MeV
80Ja15
(continued)
Comments
CZS': w e a k .
(5) (5)
1/2-,3/2-
144Nd(d,p)
C Z S '?
1 3 8 3
(11/2-,9/2-) (11/2-,9/2-)
5/2-,7/21/2-,3/23/25/2-,7/2-
from
i45MA 0 60~,u85--~
0.02 0.44 0.12 0.18 0,02 0.03 0.03 0.09 0.36 0.10 2.10 0.09 0.02 0.18 0.02
E(Ievel),L,C2S': f r o m
L=I
(73Ga01); L=3 ( 7 5 H i 0 3 ) .
L: L=8 i n L=I
73Ga01.
the
table
in
80JaI5
(73Ga01).
0.08 0.65 0.14 0.08 0.27 0.20 0.02 0.09 0.20 0.09 0.21 0.48 0.08 0.07 0.0~ 1 .27 0.37 0.06 0.22 0.33 0,20 0.02 1 .58 0.45 0.11 0.08 0.11 0.02 0.02 0.12 0 0 0 0 0 0 0 0 0 0 0
L=I (73Ga01). L=(I) (73Ga01).
L=I
(73Ga01).
L=1+5
( 7 5 H i 0 3 ) , L=3 ( 7 3 G a 0 1 ) .
L = t (73Ga01). L=I (73Ga01). L=t (73Ga01).
L=I
(73Ga01).
03 06 03 06 05 01 04 11 10 09 09
From 80Ja15. Adopted values.
39
is a m i s p r i n t .
145~T.~ 6 0 L" u 8 5 -i0
NUCLEAR
145Nd Measured: E(level)~
G(E,8=IS°), D W B A j~t
0.0 857 747 930 1112 1252 1334 1530 1760 1849 1960 2010
Levels
from
E=66.2
145T~TA 60 ~' ~ 8 5
MeV
75Hi03
CzS ,
7/211/29/25/213/2+ 5/25/29/25/213/2+ 5/29/2-
3
1.9
6 3 3 5 3 6 3 5
4.2 0.42 0.72 0.34 0,52 1.54 0.14 0.32
2095
9/2-
5
0.94
2152 2220 2500
5/2-,9/2-
(3+5) (1+5) (1+5)
0,38,0.31
3/2-,9/2-
144Nd(a,3He)
SHEETS
analysis.
Lt§
3/2-,9/2-
DATA
3 5
2.8
5
2.7
Comments
Cz8': i f
L=(1) J = ( 3 / 2 - )
8=0.48,
Cz8': i f
L=(5)
and
J=(9/2-)
CzS': i f
L=(6)
and
J=(13/2+)
if
L=(5)
J=(9/2-)
S=0,6.
Coul.
and
8=0.31. S=0.22.
0.44,0.55 0.22,0,68
Values assumed in analysis of data from 75Hi03. $ From (d,p) (75Hi03). § L e v e l s w i t h l a r g e L~3 d o m i n a t e d the spectra.
V(i45Nd)
from
145Nd(n,n'7)
83Go15
Reactor fast neutrons. Measured: V, IV, V(8). E7
E(level)
72.23 20 x149.2 3 x185.5 3 x243.5 4 x248.0 4 x252.6 3 262.8 § 4
72.23
x308.6 2 318.7?# 4 3 5 3 . 2 8 § 10
920.9
1010.87
30 § 12
1404.0 1532.3 1010.87
3 5 2 3 5 5 3 fO 2 6
1527.1? 1150.4 1162.2 1527.17
3
4 4 4 5 2 4 4 4
2427,3
1404,0
Comments
Mult. t
5 I 4 I 1,0 2.8 2,4 0,33
1404.0 x356.4 x373.6 x427.0 x430.6 x448. I x450.0 474.9 492.76 504.6 515.7 7525,2 x548.1 552.5 x580.1 x584.0 623.6 x630.6~ x633.2 x640.0 x643.4
IV
4 8 6 §
D+(Q)
IV: f r o m 1(262V)/I(920V)=0.0036 doublet 262% 6:-0.04 5 o r - 5 . 6 4 +144-275.
in
ex.
IV f o r
17: f r o m I(3537)/I(0237)=1.9 3537. doublet -0.07<6<+0,8. I(353V)/I(623V)=I.9 17: f r o m doublet 353V.
in
/~- d e c a y
and
17 f o r
in
fl-
and
17 f o r
4.4 6 2,6#
2.8#
D(+Q)
34 §
6§ 1.6 1.5 2.2 2.8 2.2 3.5 1,0 6.3 6 ! 2.2 0,9 0,58 1,0 1,0 4,7 3,8 2,4 0.8 0.8 1,8 Continued
4 6 6 8 7 9 4 2 6 4 [6 5 5 19 3 5 4 4 7 on
next
pa6e
(footnotes
40
at
end
of
table)
decay
-i0
l~Ndes-ll
NUCLEAR
DATA
7(14SNd) f r o m 14~Nd(n,n'7) E~ 657 667 675 x679 704 707
61 10 3 3 7 5 10 5 2 2 9 10 9 ? § 10
707 713 x728 x732 743 748 754
91§ 23 02 7 3 67 27 5?#
10 10 15 10 10 4
x757.9 2 x763.0 4 x 7 7 0 . 2 1 10 780.30 10 784.1 4 x788.2~ x790.8 4 x792.9 4 x796.8 4 x812.2 5 x833.24 10 847.9 4 852.73 10 864,44 10 x893.1 4 x904.1 4 906.3 2 911.2 4 915.8 4 920,9 2 x930.08 10 936.84 10 979.0 3 984.8 3 995.6 2 x1000.7 # xi002,7 5 1012.7~ 1017.6 3 xi021.5 4 xi029.0 3 xi047.2 4 1051.6 2 xi059.1 4 xi069.2 3 x1074.93 15 1089.43 20 1094.0 3 x1107,5 3 1146.13 1 1150.4 4 1162.1# 3 x1167.9 1177.3§
1182.3 x1210.6 1213.2 1218.3 x1228.9
17
E(level) 657.61 1917.5 748.27 1917.5 1957.3 780.40 780.40
1401.2 748.27 1967.4 2004.1
780.40 1532.3
920.9 919.83 936.89
1654,0 2181.0 1967.4 920.9 936.89 1051.6 2146,0 2146.0
1084.9 1084.9
1051.6
1162.2 1161,2 1213.3 1150.4 1161.2 1162.2
4 3
2 4 2 2 4
1249.8
3 8 4 19 4.5 4 92 9 9 3 5 2 <10§
9§
1249.8
3.38 2.6 7 9 2 8 . 4 - "t6 1.5 ?
T
Comments
E2
I3': f r o m 13,(707 c o m p o n e n t f r o m 780 l e v e l ) a n d doublet)f22 5. l'y: f r o m 1 3 , ( 7 0 7 ) / I 3 , ( 7 8 0 ) = 2 , 4 4 2 7 i n p - d e c a y ,
Q+D Mr+E2
6:+1.30 45.
MI+E2
6:-0.44
or
+16-22
+1.6
+3-5.
MI+E2 MI+E2
D+(Q
6:+0.02
+9-5
D+Q
6:+0.52
+10-6
D+(Q
6:-0,02 + 1 7 - 1 4 o r +1.75 + 7 5 - 5 6 . 13,: 13, f r o m 1 3 , ( 1 1 7 7 ) / I ? ( 1 1 8 2 ) = 4 . 8 10 i n # I ? : I ? f r o m 13,(1177 f r o m 1249 l e v e l ) a n d doublet)=25 3.
6
Continued
83Go15 ( c o n t i n u e d )
E2
19§ 2 17 1 1 6 4 '266 31 6 100 1 2# 1 .2# 2.6 7 2 4 ? 16 2 7 1 1 3 4 093 063 0 3 6 18 084 3 1 8 12 3 3 3 10 16 3 20 4 0 60 24 1 2 6 248 1 9 9 1 5 8 92 5 203 29 1 33 8 248 489 1 2 5 259 883 602 359 257 4 2 24 5 1 7 8 2 2 6 628 16 4 639 439 15 2 3 7 11 6 8 # 13 68# I 3 3 1 16§ 5
1957,3
1285.6 1285.6
Mult,
145~,T.aeO,,,,85_,ll
SHEETS
D+(Q
on next
or or
+8
+3-22.
+3.2
+7-2.
6:+1.6 + 1 0 - 7 o r +0.01 + 3 2 - 2 0 . 6: - O . 1 I + 1 9 - 2 7 o r - 2 . 6 + 1 2 - 2 2 .
page
(footnotes
41
at
end
of
table)
decay. 13,(I177
I?(707
145 e0Nds5-12
NUCLEAR
"y(145Nd)
E(level)
E7 1240.1 1244.7 1249.9#
3 2
1259.1 1265.8§
2
2
2
1271.8 1285.6 x1307.92 x1314.1 1332.1 1338.5 1350.6 x1360.0 x1368.2 x1386.5 x1391.4 1400.9 x1407.7 x1432.9 x1437.4 x1449.0 1464.8 1490.8 1503.2#
2 2
1506.4 x1511,84 x1516.48 1525.4 1532.3 x1543.0 x1550.2 x1561.2 x1569.4 1576.3 x1581.9 15gt.5 x1643.6 1654.0 x1673.8 1681.3 x1696.7 x1701.9 x1733.5 x1749,8 x1762.0 x1765.0 1769.0 x1780.4 x1820.2 x1827.7 x1833.0 x1839.8 x1846,1 x1874.3
5
7 2 6 4 7 4 4 8 5 3 4 5 7 4 2 4 5 4 5 6 7 4 4 4 2 4 7
x1883.7 x1894,3 1900.7 x1905.3 x1911.6 1916.9 x1923.5 1936.8 1957.3
4 2 4 6 4 3 4 3 4
1326,3 1338,7 2427.3 1338.7 1285.6
14 2 6,4 {
1401.2
1532.3 2270.8 1576.0 2161.0 2427.3
14 15 1592,6 1532,3
1576.0 1591,I 1654.0 1681.3
2427.3
1874,3
1967.4
1917,5 2004.1 1957.3
14~Nd(n,n'v)
MI+E2
83Go15
(continued)
Comments
l-y: f r o m l ' y ( 1 2 4 9 ) / I v ( I t 8 2 ) = 3 . 0 ? i n ,8- d e c a y . I'y: f r o m 13'(1249 f r o m 1249 l e v e l ) = l O 4 a n d 13,(1249 d o u b l e t ) = 1 7 5, I-y: f r o m I ' / ( 1 2 7 1 ) = 0 . 4 3 13 i n p - d e c a y , l-y: f r o m I-y(1265 f r o m 1338) a n d I-/(1265 d o u b l e t ) = 8 , 5 ~: +0,10 9 o r +5,7 + 2 f - 1 4 9 ,
22
<5§ 15 3 5,68 3,9 2,0 12 3 1.8? 2.2 4 1 2.1 1.9 3.4 1.0 2.29 0.63 1.66 1.05 3,5 1.7
145MA 80,'~85- 12
SHEETS
Mult. t
7.8 23 5 2 10# 4 7§ ?
1404.0 1338.7 2270.8
4
17
2181.0 1317,2 1249.8 1317,2
13
5 6 5 3 4 2 4 3 7 4 4 3 6 7 2
from
DATA
8
7
6 5 6 8
5
17
4
t .2# 1.2# 5 ! 6 . 3 .15 7 3 7 3
13.0 3 1.47 1.89 1.7 8 2.28
~: + 4 . 0
D+Q
+360-22
or
+0.40
+35-20.
7.8 22 3 1 3.49 3.8 14 2,36 1.4 6 4.5 17
1.3 5 1 1.8 6 2 7 2 5 2 3 l 1.45 236 084 084 307 1 6 1 5
5
i
?
5
5
6 7
2.4 6 709 1 5 6 094 2 3 11 275 18 ? I 54 246
Continued
on
next
pa~e
(footnotes
42
at
end
of
table)
7,
145
e0Nd65-13
NUCLEAR
7('45Nd)
1967 x1996 2004 x2069 x2091 x2102 x2108 x2120 2146 x2149 2160 x2244 x2249 2428 x2439
4
3
1
2
1967.4
8
4
1 7 6 4 0 8 9 7 5 1 4
3 6 6 5 6 6 3 8 8 7 8
'45Nd(n,n'7)
80Nd65-13
83Go15 ( c o n t i n u e d ) Comments
3.0
1.8 1.8 2.9 5 9 1.9 1.9 0.5 1.4 2.0 3.7 2.0 0.6 0.9 0.6
2004.1
1 3
145
SHEETS
17
E(level)
E7
from
DATA
2146.0 2161.0
2427.3
17: p r o b a b l y
misprint
of
IT=5.0
9.
1"Assuming that M 2 cannot c o m p e t e with $ C o m p l e x line. § Multiplet; intensity suitably divided. #Multiplet; u n d i v i d e d intensity given. x T ray not placed in level scheme,
i45Nd(p,p')
*45Nd L e v e l s f r o m
E2. M1 a n d
El.
77Hell
J~r(145Nd)=7/2-. E=8.7-I0.3 M e V (77Hell), 8-14 M e V (7ICaXY). Measured: o'(E,O). D e d u c e d IAR in *a6Pm. E(level)
o.o 70 656 748 780 919
J~$
7/2E(level),J~,da/dO:
11/29/2-
0.25 0.20 0.04
3/2-
0.03
9/2-
0.04 0.01 0.01
1162
11/213/2+ 9/2-
0.03
1249 1334
5/25/2-
0.01 0.01
14o5
(5/2-)
0.02
1005 1109
Comments
dq/dO ?
~'d(r/dQ (average SAdopted values.
I
145Nd(x,x'7). X = p , E=2.2 MeV ( 5 5 8 i 1 2 ) . X = a , E = i l . 2 MeV ( 8 4 D r 0 3 ) . X=I4N, E = 5 2 MeV ( 6 3 A 1 3 0 ) . X=*aO, E = 4 5 MeV ( 6 6 E c 0 2 ) , 3 5 - 4 5 M e a s u r e d : o'(E), 7, 7 ( 0 ) , y i e l d .
keY
with
J=3/2-
and
5/2-.
J~?
from
nonresonant)
Coulomb
near
E(p)=9
Excitation
MeV ( 7 7 H e l i )
in
mb/sr.
84Dr03
MeV ( 8 4 D r 0 3 ) .
Comments
T1/2
0.0 67.1 72.5 657 .4 748 . I
7/2-
9/2-
3.7
ps
11
780.2
3/2-
0.9
ps
2
920.8
9/2-
0.73
3/2-
5/z11/2-
1051.3
7/2-,5/2-
t162.3
9/2-
~" A d o p t e d
67+72
l
145Nd L e v e l s
E(level)
doublet:
ps
15
B(E2)=0.030 2 (84Dr03). B(E2): o t h e r : 0.017 ( 6 3 A l 3 0 ) . TI/z: f r o m B ( E 2 ) = 0 . 0 3 0 2, B r a n c h i n g = 0 . 5 2 B(E2)=0,020 3 (84Dr03). TI/2: f r o m B ( E 2 ) = 0 . 0 2 0 3, B r a n e h i n g = 0 . 1 8 B(E2)=0,036 2 (84Dr03). B(E2): o t h e r : 0 , 0 2 6 ( 6 3 A 1 3 0 ) . T1/2: f r o m B ( E 2 ) = 0 , 0 3 6 2, B r a n c h i n g = 0 . 6 8 3 B(E2)=0,012 5 (84Dr03). B(E2): o t h e r : 0 , 0 5 8 ( 6 3 A 1 3 0 ) . B(E2)=0,023 4 (84Dr03).
values.
43
I and
6=+1.30
2.
3, d = + 0 . 7 5
11.
45
(n,n'7).
140SNd85-14
NUCLEAR
"/(145Nd) E(level) 67.1 72.5 657.4 748.1
780.2
920.8
1051.3
1162.3
t
Branching
Z7
17t
67.1 72.5 657.4 91.0 675.5 748.1 707.8 713.6 780.2 263.1 848.2 920.8 303.0 979.0 1051.3 504.6 1089.8 1162.3
100 100 100 2 44 54 44 37 18 2 30 67 6 55 39 5 15 80
f ! 1 t 1 I 2
SHEETS
145~T~ 60 r,,..= 85 -14
Excitation
84Dr03
6
Comments
E2
Mult.:
A z = + 0 . 1 1 0 1, A 4 = - 0 . 0 0 2
E2
Mult.:
Az=+0.077
A z = + O . 0 1 8 7, A 4 = - 0 . 0 0 3
12, A 4 = - 0 . 0 1 0
I. 14.
2
2 2 9 9 2 2 2
MI+E2
+0.75
11
Mult.:
MI+E2
-0.87
+48-83
Mult.: A e = - 0 . 1 6 8
7.
7, A 4 = + 0 . 0 3 2 8.
from each of excited levels.
Measured: a(E,8), D W B A E(level)
t
Coulomb
Mult.
i45Nd
0.0 68 657 2 748 2 780 2 928 2 1086 2 1328 3 1529 3 1712 3 1805 4 1954 4 2052 4 2125 4 2202 4 2647 5 2716 6
from
DATA
from
14SNd(p,d)
E=31
MeV
75Hi03
analysis (75Hi03,71BaZA).
j=t
L
7/23/211/29/23/21/23/2+ 1/2+ 3/2+ 1/2+ 11/2II/2-,9/2(5/2)+ 3/2+ 5/2+ 5/2+
3 1 (5) 5 1 1 2 O 2 0 (5) (5) 2 2 2 (2) 2
(5/2)+
Levels
CZS
Comments
1.9 0.16 0.6 o.5
o.17 O.ll 0.17 0.5 2.3 0.8 3.7 0.45 0.33 0.08 0.13 0.18
E(level),L: probable doublet; L=3 in (d,t).
C2S: for J = l l / 2 - .
0.7
Adopted values.
145Nd L e v e l s
from
148Nd(d,t),(pol
d,t)
E=16
MeV
82Ar13
Vector polarized deutrons (82Ar13); others: E(d)=12.1 M e V (80Ja15), 75 M e V (78VaZS). Measured: ~(E,8) (82Ar13,80Ja15,78VaZ8), vector analyzing power (82Ar13); D W B A analysis. E(level)§ 0.0 67 2 67 2 657 2 748 t 2 780 2 919 2 936 2 1083 2
j~$ 7/23/3-
5/23/21/25/23/2+
L§ 3 1 3 5 51 1 1 3 2
Continued
S§ 1.37 0 13 0 06 0 35 0 37t 0 17 0 O7 0.15 0.13
on
Comments
E(level): unresolved doublet with L=I and L=3.
next
paBe
(footnotes
44
at
end
of
table)
145 60Nd85-15
145Nd E(level)§
llOOt
Levels
Jw$
1242 f 6 1315 2 1331 2 1528 2 1591 2 1711 1801
2
t From $ From § From
6o""85 - - 1 5
(I/2)-
I
0.002
(3/2)1/2+ 3/2+
3t 1 0 2 1
0.02 t 0.04 0.24 1.73 0.011
0
0.63
(5)
1.73
2 t 5t 0 2 (2) T
0.063
t 2 2 2 2 2 0
t 0.085 0.13 0.49 0.049 0.075 0.033
5/2+ 11/2-,9/21/2+ (5/2)+
(5/2)+ 5/2+ (5/2)+ (5/2)+ 5/2+ 1/2+
d,t)
E=16
MeV
82Ar13
L=6 also in 76BjZY. S: calculated for J=13/2+. S: calculated for J=5/2-.
S: c a l c u l a t e d for J=I/2-. L: d o u b l e t w i t h L = t a n d
L=3 ( 8 0 J 2 1 5 ) .
L: a ( 8 ) is consistent with S: calculated for J = 1 1 / 2 - .
0.37 t 0.026 0.17 0.05 t
large L ( 8 2 A r 1 3 ) .
S: calculated for J=11/2-.
E(level): not S: c a l c u l a t e d
80Ja15. vector analyzing power analysis and the 82Ar13 except where noted otherwise.
14SNd L e v e l s
values
from
observed by for J=3/2+.
of
82Art3.
L.
146Nd(3He,a)
E=24
MeV
80Lo06
O t h e r s : E=75 MeV ( 7 8 V a Z S ) , 82 MeV ( 7 7 S e 0 4 ) . M e a s u r e d : a ( E , 0 ) , DWBA a n a l y s i s .
E(level)
j~t
0.0 746 I0 1 1 1 0 10 1 5 3 6 10 1 7 2 4 10
7/29/213/2+ 3/2+
t Adopted
L
S
3 5 6 2
Measured:
352.5 453.5 657.7 675.8 708.0 748.3
T, a T ; E(level)
9 3 2 6 17 4
j~t
L
S
1803
10
11/2-
5
1.9
2718
1o
(5/2)+
2
1.1
3026 3153
10 10
(11/2-) (11/2)-
(5) 5
1.1 0.57
values.
7(145Nd)
E7
E(level)
1.4 0.64 0.64 2.0
1403.9 1111.2 657.7 748.3 780.5 748.3
deduced
S(hll/2) IT
8 2 23 3 100 7 21 3 6 2 25 3
from for
(continued)
Comments
S§
o,o71
2
2175 t 6 2204 2 2647 2 2717 2 2752 2 2799 2 2826 2
146Nd(d,t),(pol
st
1/2+
1820 2 1940 t 6 1953 t 6 1960 2 2054 2 2117 t 6
from
L§
s
1212 2
145 M,4
NUCLEAR DATA SHEETS
146Nd(3He,a3,) level
MeV
1802.
E7 848.2 920.7 978.9 1051.4 1144.3 1460.8
E=26
3 70 12 30 10 10
E(level)
IT, '
920.7 920.7 1051.4 1051.4 1802.0 1533.3
2 6 6 6 9 9
45
1 2 2 2 3 3
84Ra03
1450-6 1 ~ I I 1 8 4 --1
NUCLEAR
145Pm Q(~-)=-620
3; 8 ( n ) = 7 9 2 7 . 4
E(level) 5/2+
5
7/2+
15
5 3
3/2+ (3/2)+ 7/2+
5 4 3
9/2+ I/2+ 9/2+
492.31
660.5 669.7 713.6 726,5 750.4 773 794,6
823 836
Adopted
25; Q ( a ) = 2 3 2 2
17.7
Levels 3
85Wa02.
2.64
Comments
4
y
145Din 61~LL~84 - 1
ns
6
V.t=lO0; % a = 2 . 8 , 1 0 -~ ( 6 2 N u 0 1 ) . T1/z: f r o m 5 9 B r 6 5 . J~r: L=2 i n (SHe,d), log f t = 7 . 8 to 7 / 2 - . J1r: L = 4 i n (3He,d), T to 5 / 2 + is MI+E2, TI/2: f r o m 1458m t d e c a y ; o t h e r : 2.5 n s 3 ( p , 2 n T ) (80Ko16). J1r: L=2 i n (SHe,d), T f r o m 1 / 2 + is MI+E2. J1r: T to 5 / 2 + is A J=1 MI+(E2), T to 7 / 2 + is (E2). J1r: "y to 5 / 2 + is hJ=l, MI+E2; T f r o m 9/2+. J~r: T to 7 / 2 + is AJ=I, MI+E2; "y f r o m 11/2+. J~r: L = 0 in (aHe,d). J~r: 3, to 5 / 2 + is hJ=2, E2; 3' to 7/2+.
(3/2)+1" 4
5 5 5 5 8 3 0 4
883 958 1057 3 1101 6 1206 8 1215 2 1233 9 1260 5 1284 O 1291 9 1311 7 1346 9 1365 9 1384 9 1388 5 1397 2 1455 7 1489 1 4 9 3 .6 1502 . 0 1507
11/2-
5/2+ 11/2+ 7/2+,5/2+
5
(3/2)+ 1/2+
e
9/2-
e
(11/2)+
5 5
(3/2)+t
17.1
ns
12
Tl/~: w e i g h t e d a v e r a g e o f 16.3 n s 15 ( 8 0 K o 1 6 ) a n d 18.3 n s (768h05) in (p,xn-/). J ~ : 3, to 7 / 2 + is M2, L=5 i n (SHe,d). Jlr: 3, to 7 / 2 + a n d 3 / 2 + a r e MI+E2. J~v: T t o 7 / 2 + is AJ = 2 , E2; T f r o m 1 1 / 2 + . Jvr: T to 5 / 2 + is h J = l , Mi+E2, T to 7 / 2 + is MI+E2. J1r: L=2 i n (SHe,d), T to 5 / 2 + is h J = ( 1 ) , MI+E2. J~r: L=O i n (SHe,d). Jvr: T to 1 1 / 2 - is A j = I , MI+E2; T to 7 / 2 + is h J = l , El. J1r: T to 9 / 2 + is A J = I , MI+E2, n o T to 5 / 2 + .
6 6 6
(7/2, 11/2)-
Jrr: 3, t o
9/2+
is
A J = I , El.
6
13/2+
Jrr: T to
9/2+
is
AJ = 2 ,
E2; T to
19
11/2+.
6 7
712-
J~r: L=3
8 7 8
13/2+
Jrr: T to
9/2+
8 8
( 3 / 2 + ) 1" 13/2+ 15/2+ ( 3 / 2 ) + 1"
J~r: "7 t o J~: T to
11/2+ 11/2+
1558 .3 8 1563 1648 . 7 9 1716 1753 1753 1809 1849 1978 2008 2112 2168 2190 2210 2282 2294
S(p)=4811.6
SHEETS
Tl / 2
J~
O.O
61.25
25;
DATA
(15/2)
(1/2+)
JTr: JTr: JTr: J~r: JTr:
1/2+
JTr: L=0
1/2+ 1/2+ (11/2)-
in
(SHe,d); T to is A J = 2 ,
is is
9/2-
is MI+E2.
E2; "y to
11/2+
(SHe,d).
I/2+
Jvr: L=0 i n
(SHe,d).
(3/2+)I" (3/2+)1" (3/2)+1. (3/2)+1"
Jr:
M1.
A J = I , M1; n o 3' to J < l l / 2 + . AJ = 2 , E2; T to 1 3 / 2 + .
T to 1 3 / 2 + is A J = I , D; n o 3' to L=0 i n (SHe,d). L=0 i n (SHe,d). L=5 i n (3He,d), s h e l l m o d e l . L=(O) i n (SHe,d). in
is A J = I ,
J<13/2.
(3/2)+1"
L=2
for
doublet
2282+2294.
2329 2401 2431 2474 2562
1. L=2 i n (SHe,d), b e c a u s e a l m o s t a l l e x p e c t e d s t r e n g t h for g.s., o t h e r L=2 l e v e l s ( p o p u l a t e d i n (SHe,d)) a r e p r o b a b l y
46
L=2, d 5 / 2 l e v e l s 3/2+ (d3/2).
was
observed
in
transition
to
5/2+
NUCLEAR DATA SHEETS
t 481~II164 sD_ -2
t4~Pm Adopted
z7
E(level) 61.25 492,31 660.5
669.7
713.6 726.5 750.4 794.6
823.5
836.5 883.8
958.0 1057.3 1101.8
1206.8
1215.2
1233.9
1284.0 1291.9
1311.7 1346.9 1365.9 1384.9 1388.5 1397.2 1455.7 1493.6 1502.0 1558.3 1648.7
61 431 492 168 599 660 608 669 652 234 80 750 44 733 794 153 331 762 122 775 223 822 883 465 958 564
25 5 4 5 31 15 04 5 1 5 5 5 6 4 7 3 4 4 O0 6 76 5 4 3 2? 4 3 6 5 78 5 O0 8 3 4 80 5 3 3 50 8 7 5 8 3 5 4 O 4 8 3 307 26 8 388 I 4 432 1 2 1040 7 5 370 3 4 456.4 2 493.2 5 537.0 4 545.5 4 1154.1 5 1215,2 5 410.4 2 1233.6 5 570.4 3 468.4 3 622.3 4 799.4 5 819.2 5 1311.7 6 510.4 4 633.3 3 529.4 3 652.4 4 283.17 7 674.9 5 190.35 5 646.8 4 742.1 5 657.1 5 155.15 4 665.5 4 721.6 5 251.48 7
Mult.
17 100
MI+(E2)
100 5 9.58 100 8 24 2 19 2 I00 5 I00 I00 2.33 100 5
MI(+~2)
I00 10 4 . 8 19 II 2
M2 E3
100 8 58 8 1.22 I00 5 19 2 84 8 I 0 0 12 9.0 21 100 I0 100 57 7 2O 5 86 9 100 1 f 10.4 28 100 6 18 3 20 3 14 3 28 5 I 0 0 10 52 9 1 0 0 13 100 7 0 16 I00 14 8 0 16 1 0 0 13 54 8 7 5 13 1 0 0 13 44 5 1 0 0 16 100 lO0 82 9 IOO 12 I00 I00 11 .3 13 100 8 100 I00
MI+(E2) MI+E2
16415~v1 ~~1 8 4 _ o
7 radiations
6
Comments
a
B(MI)(W.u.)=O.0356
<0.045
(E2) MI+(E2) MI+E2 Mr+E2
0.44 0.63
7 3
E2 0.0216
B ( M 2 ) ( W , u . ) = 0 . 3 0 5. B ( E 3 ) ( W . u . ) = 1 3 6.
E2
E2+MI E2+MI
1.1
MI+E2 MI+E2 MI+E2
0.34
5
0.0687
0.07
1
0.02535
4
El
MI+E2
E2+(MI) E1
(MI+E2) E2
Mi+E2 0.258
MI E2 Mt E2 D
47
6
[2.
145D-61111184 -3
NUCLEAR
fl+,e
Data
from
DATA
145Pm
145 6 1 D. 1__ 1 1 8 4 - o,':,
SHEETS
e Decay
74To04,59Br65
M e a s u r e d : V, K x r a y , (K x r a y ) V - c o i n ( 7 4 T o 0 4 , 5 9 B r 6 5 ) , 7 ( t ) ( 5 9 B r 6 5 , 6 7 M y 0 1 , 7 0 K a 3 6 ) . I(K x r a y ) / I ( 6 7 V + 7 2 V ) = 2 3 . 8 7 ( 5 9 B r 6 5 ) , L x r a y / K x r a y = 0 . 1 6 1 16 ( 7 2 N i 1 6 ) . E~
( 8 9 3) ( 9 4 . 2 25)
For
Iet
Los
It
72.4 67.2
8 6 6 3
6.1 8.3
4 2
25)
O.0
intensity
per
(161.4
t
E(level)
86
100 d e c a y s ,
17 n o r m a l i z a t i o n : E7
from
67.2 72.4
1
1
For
absolute
7.81
7(145Nd)
from
Measured: Ea 40
t
a
For
7 (596r65)
74To04,59Br65 e ( g . s . ) = 8 6 % 6. Comments
M u l t . : a ( K ) e x p = 3 . 3 , K / L = I . I 2. 15 f r o m a(K)exp(72V+67V)=3.33 14 Mult.: a(K)exp=3.33 (596r65), a(K)(67V)=3.37, I(727)/I(677)=3.35 9 (79To04), K/M=19.4 (59Br65).
9.62 3.65
multiply
radiations
by
from
0 . 0 1 8 5 20.
~45pm
a
Decay
62Nu01
fat 2.8.10
0.0
intensity
per
-5
100 d e c a y s ,
multiply
t4Spm M e a s u r e d : 7 ( 7 7 R o 2 9 ) , ce, K x Others: 70Be65, 81BeYJ.
o.o 61.22
2
7/2+
492.55
7
3/2+
Adopted
values.
Levels ray,
by
2 . 8 , 1 0 -?.
from
7-K x
ray
145Sm coin,
~ Decay
7(t)
77Ro29,83Vo10
(596r65).
Tl/2
J~?
E(level)
3
E(a), Ia.
E( 1 e v e 1 )
2240
E Decay
a
E2 M1
a
145pm
ray)/l(677+727)=23.8
100 d e c a y s ,
25
1.0.
Mult. 8
per
4
by
I(K x
29.9 100
intensity
Iv: ~ ( L + M + N ) / e K ( e x p ) = 0 . 8 5 3 (59Br65); eK(exp)/e(K+L+)=0.606 (74To04). Ev: d e t e r m i n e d from ~K(exp)(g.s.)/~K(exp)(67+72 levels)=5.9 (596r65).
multiply
I7 t
E(level)
67.2 72.4
6
Comments
Comments
5/2+
2.64
ns
6
'45Pm
TI/2: w e i g h t e d average of 2.69 ns ( 5 9 B r 6 5 ) , 2.7 n s 2 ( 6 2 B e 3 1 ) .
Levels
from
t44Nd(aHe,d)
9 (67Ba22),
E=24
MeV
2.61 n s
80Stl0
E = 2 4 MeV (73MAYO), 35.2 MeV ( 7 6 S h 0 5 ) . M e a s u r e d : ¢7(E,6), DWBA a n a l y s i s . E(level)
J~?
0.0 60 498 728 773 796
5/2+ 7/3+ 3/2+ 1/2+ (3/2)+ 11/2-
L 2 4 2 0 2 5
S'~
E(level)
2.33 1.59 0.02 0.52 0.15 8.77 Continued
on
next
j~t
960 1059 1214 § 1226 1260 1386 page
(footnotes
48
L
S '~
(3/3)+ 1/2+
2 0
1.41 0.56
(3/a)+
2
0.25
7/2-
3'
0.19
at
end
of
table)
10 ( 6 7 M y 0 1 ) ,
2.6 n s
2
145D--
-61.II184--~
NUCLEAR
145Pro Levels f r o m E(level) 1489 1507 1563 1716 1753 1753 1809 1849 1978 2008 2112
J~g
L
S'$
(3/2+) (3/2)+
(2) 2
(0.16) 0.23
I/2+ 1/2+ (1/2+)
0 0 5 (0)
(11/2)-
I/2+
0
(3/2)+
2
1/2+
0
DATA
145D--
61.[I184--~
SHEETS
144Nd(3He,d) E=24 MeV j~t
E(level) ~168 2190
(3/2+)
2210
(3/2+)
L
2294# 2329 2401 2431 2474 2562
1.3
(0.023) 0.18 0.53 0.12
s'~
(2)
(0.18)
(2)
(0.12)
# #
2282#
0.030 0.036
80Stl0 ( c o n t i n u e d )
# #
A d o p t e d values. A l m o s t all expected strength for L=2 d5/2 levels was observed in transition to 5/2+ therefore, L=2 excited levels populated in this reaction are probably 3/2+ (d3/2), 5 For d o / d O ( 4 0 °) see 80St10. § Observed in 73MAYO. # F o r d o u b l e t 2 2 8 2 + 2 2 9 4 L=2, S'=0.26.
7(145pm) f r o m
t45Nd(p,n7) E = 5 . 5 - 8
MeV
76Sh05,77Na07
J1r(145Nd)=7/2-. Measured: 3", 3"3", 3"(0), 3'(t) ( 7 6 8 h 0 5 ) , 7, ce ( 7 7 N a 0 7 ) . T L / 2 ( 7 9 4 . 9 3 [ e v e l ) = 1 8 . 3 n s 19 f r o m 7 6 8 h 0 5 .
E~ 61 x 149 190 x208 251 x272 x333 432 456 492 570 599 633 653
E(level) 3 7 2 3 7 1 2 4 4 5 4 4 0 2
E7
17 t
61 . 3
2 2 4 2 4 3 3 3 3 2
1397.2
1648.9
3
1102 1207 492 1284
3 4 2
1347 714
660
4 0 5 9 7 5 5
2.3 4.8 13.2 5.1 10.5 7.1 12.6 28 .7 62.5
14.5 33.7 9.5
IO0.O
E(level)
657.6 870 O x 6 8 7 35 x 7 2 8 35 733 6 750 6 775 5 823 5 x835 I$
7 14 17 17 21 31 33 41 42 35 52 38 37
x883 884 958 x1165
x1441
8 6 7
3 2
1494 670
4 O
46.4 68.8 4.45 13.85 36.2 111.0
3 3 2 2 3 4
794 750 636 884
13"t
6
4
884 958
4
11 38 43 72.6 43 17.9 41 11.45 9
9 6 8
3 4 4
36 37
<26 <20.0 23.6 49 33.15 50 8.45 21
6 7
I~ 3 65 3
t At E(p)=6.6 MeV. $ Observed only in 77Na07 at E=8 MeV. x 3" ray not placed in level scheme.
7(145pm)
from
146Nd(p,~n~)
E=14.9-~0.2
MeV
80Ko16
Measured: 7, 73' a n d 73"(t) at E=14.9 MeV, 3'(e) at E=16.8 MeV, ce (at E=14.9 MeV). TL/z(61.23 5 level)=2.5 ns 3. T I / z ( 7 9 4 . 6 4 l e v e l ) = 1 6 . 3 ns f5. E7
E(level)
44 61 80 x112 122 x146 153
2? 23 5 76 5 10 5 80? 5 9 2 78 5
155 168 190
15? 4 04 5 35 5
223
50
8
794.6 61.23 750.4 836.5 823.5 1502.0 660.5 1397.2 883.8
Mult. $
17 ~
410 35 8 15 10 21 27 63 106 47
50 5 2 2 2 3 3 5 10 4
Continued
on
Comments
Mr+E2
Mult.: A2=-0.05 1, A4=-0.03 2.
Mt
Mult.: A2=-0.15 3, A 4 ~ 0 .
next
page
(footnotes
49
at
end
of
table)
g.s.;
NUCLEAR
161LL==84 45D~ -5
7(i(SPm) E7
E(level)
234,00 x246.5 251.48 283.17 307.26 331.00 370,3 388.1 410.4 432.1 456.4 465.5 468.4 492.5
4 4 2 2 2 4 3 3
493,2 510.4 529.4 537.0
5 4 3 4
545.5
4
564.8 570.4 599.1 608.6 x616.4 622.3 633.3 646.8 652.4
3 3 5 4 4 4 3 4 4
857.1 660.5 665.5 669.7
5 5 4
674.9 711.1 721.8 733.4
742.1 750.4
762.3 775.3 794.6 799,4 819.2 822.7 883.8 958.0 1040.7 1154,1 1215.2 x1224.7 x1228.8 1233.6 x1244.4 x1300.8 1311.7
6
726,5
7 7 8 8
1648,7 1384.9 1101.8 823.5 1206.8 1101.8 1233,9 1101.8 1206.8 958.0 1291,9 492.5
1
1206.8 1346.9 1365.9 1206.8 1315.2 1057.3 1284.0 660.5 669,7 1291,9 1346.9 1397.2 713.6
from
14°Nd(p,gnT)
177 80 20 105 43 80 190 26 28 60 120 250 35 35 1000
10 4 10
4 10 15 7 7 10 12 15 8 8
45 7 9 0 15 42 5 50 7 21 5 1 3 4 14 1 8 0 15 660 5 0 180 15 260 20 50 7 120 15 130 15 1800 i O 0
15 10 15
SHEETS
E=14.9-20.2
MeV
Mult.$
(continued) Comments
0.34
5
E2+(MI)
El MI+E2
80Ko16
@
D MI+E2
Mr+E2 MI+(E2)
18415ao1 _1 1 8 4 - -
0.07
I
Mult,: Mult.: Mult.: Mult.:
A z = - 0 . 1 6 I, A 4 = + 0 , 0 9 t. a ( K ) e x p = 0 , O 7 0 12. a(K)exp=O.062 9; A 2 = - 0 . 2 8 3, A 4 = - 0 . 1 2 a(K)exp=O,056 7, K / L = 8 , 8 6.
Mult.: Mult.: Mult.:
a ( K ) e x p = 0 . O l 9 4, ' a(K)exp=O.O06 2; A 2 = - 0 . 1 1 a(K)exp=0.025 4; A 2 = - 0 . 0 7
5.
6, A4~.0. 2, A ~ ¢ 0 .
MI(+E2)
Mult.: a ( K ) e x p = O . 0 1 7 A(=0.0.
2, K/L=B.2;
(MI+E2)
Mult.:
a(K)exp=0,017
4.
MI+E2 El (E2)
Mult.: Mult,: Mult.:
a(K)exp=O,Oil 2; A z = - 0 . 0 6 a(K)exp=0.003 I; A z = - 0 . 0 0 a(K)exp=0.0079 15.
E1
Mult.:
a(K)exp=O.O038 12; A 2 = - 0 . 0 4
E2 E2 MI+E2
M u l t . : a ( K ) e x p = 0 . 0 0 4 2; Az=+0.23 3, A ( = + 0 . 0 3 5. M u l t . : A2=+0.18 6, A ( = - 0 . 0 5 8. M u l t . : a ( K ) e x p = 0 . O 0 4 6 15, K / L = 7 . 6 5; A~=+0.25 1, A 4 = + 0 . O 0 I.
0.63
3
Az=-0.004
6, A ( = + 0 . 0 9 8, A 4 ~ 0 .
9,
9.
2, A4~.0.
1365.9 1493.6 860.5 1502.0 669.7
95 105 160 240 940
20 50
MI MI+(E2) E2 MI+E2
5 4 5 3
1388.5
40 140 50 520
10 15 10 50
M2
Mult.: a(K)exp=0,020 B ( M 2 ) ( W . u . ) = 0 . 3 0 5.
5 3
1455.7 750.4
50 1540
10 80
E2
4 3 5 5 5 5 3 4 5 5 5 5 5 5 5 5 6
883,5 836.5 794.6 1291.9 1311.7 883.8 883.8 958.0 1101.8 1215.2 1215,2
110 1250 25 40 120 210 250 390 140 42 150 90 140 115 155 160 65
15 60
Mult,: a(K)=0.00376 used for normalization of other a ( K ) e x p , K / L = 6 . 2 f2; A 2 = + 0 , 1 3 4 4, A ~ = - 0 . 0 2 2 5. M u l t . : a(K)exp=O,O056 1,2. Mult.: a(K)exp=0.0045 /0; A 2 = + 0 . 1 8 1, A 4 = - 0 . 0 6 I.
3
1558,3 794.6
1233.9
1311.7
10 8 15 20 30
40 15 8
0.44
7
MI+E2 E2 E3
E2+MI E2+MI
1.1
MI+E2
15 15
20 15
20 20 I0
t" Measured at E(p)=15.8 MeV. ;[c a(K)exp were normalized to a(K)(E2)
x "F ray
DATA
for 750.47.
not placed in level scheme.
50
4
M u l t . : A 2 = - 0 . 2 9 6, A 4 = + 0 . 0 8 9. M u l t . : A z = - O . 1 9 5, A ~ 0 . M u l t . : A 2 = + 0 . 2 6 4, A 4 ~ 0 . Mult,: a(K)exp=0.008 I, K / L = 6 . 8 A 4 = - 0 . O 0 2.
Mult.: a(K)exp=0.0037 Mult,: a(K)exp=0.O038 Mult.: a(K)exp=0.0030
8; A 2 = + 0 . 1 3
3; A2=+0.06
1,
3, A ~ 0 .
10. 10, A2=+0.31
10; A2=-0.08
3, A4=-0.05 5. 3, A4=+0.06 4.
5
16425~~, ~ 8 3 -I
NUCLEAR
la~Sm Q(fl-)=-2662.2 E(level)
2
1876.64 1972.63 1996.90 2049.9
2110 2133 2155 2160 2192 2229 2276 2293 2297
24
4 3 3 7 5 3 4
3 3 3
d
3
36
ps
12
13/2+
15
ns
2
9/2t/2+ (15/2)+ 11/23/2+ i/2-t 3/2+
5/29/2(t5/2+)
6 4
7/2+?
6 9 9
7/2-t
3
Adopted
Levels
85Wa02. Comments
3/2-
9/25/2+
%{=100. /~=0.92 6 ( 7 8 L e Z A ) . J~v: L = 3 i n ( d , p ) , a t o m i c beam (78LeZA). T1/2: f r o m 59Br65. Jvr: L = I i n ( d , p ) , ~ t o 7 / 2 is A J = 2 , E2. T l / 2 : f r o m 7 5 B e 0 9 (145Eu E d e c a y ) . J1r: L = 6 i n ( d , p ) ; 7 t o 7 / 2 is E3 (3,(0) a n d RUL i n ( a , 3 n 3 , ) ) . Tl/~: f r o m ( a , 3 n ~ / ) ( 7 7 H a 0 4 ) ; o t h e r : 12 n s 2 ( a , 3 n T ) (75K101). J~r: L = 5 i n ( d , p ) , 3, t o 7 / 2 is M1. J1r: ~/ to 3 / 2 - is Et, "y3,(0). J1r: -/ to 13/2+ is AJ=I, MI+E2; n o 3, to J<13/2. Jvr: ~, to 7/2-, 13/2+; "~ to 7 / 2 - is A J = 2 Q, 3, f r o m 9 / 2 - is MI+E2. J~r: T t o 1 / 2 + is M I + E 2 . J~r: L=I in (d,p). J1r: ~ to 1 / 2 + is M r + E 2 . J~r: L = 3 in (d,p), 3, to 3 / 2 - is MI+E2. J1r: -/ to 11/2- is MI+E2, T to 7 / 2 - is A J = I MI+E2. J1r: "y to 1 3 / 2 + is D+Q, n o T to J<13/2. J1r: L = 5 in (d,p), I A R data (77CI02), shell m o d e l . J1r: 3, to 7 / 2 - is El, ~, to 3 / 2 - is El.
3
3
60 9 47 7 39 7 3 5 9 6 14 9 5 60 6 0 3 14 9
2329 39 6 2 3 4 0 5 9 14 2346 46 7 2385 89 50 2387 32 8 2425 85 9 2438 0 4 2 4 8 1 9 8 10 2 5 0 8 3 4 16 2513 37 23 2551 9 2 2558 89 14 2629 15 2661 1 7 2678.3 5 2690 2690 2710.3 2724 2750 2784.9 2797
S(p)=6525
145~ 62~m83 -I
SHEETS
T,/z 340
7/2-
893.729
1423.189 1436 30 1469 0 1538 0 1547 31 1607 29 I627 55 1658 50 1706 0 1774 0 1774 1 1804 24 t848 1 1857 68
30;
J~
0.O
1105.0
S(n)=6757.07
28;
DATA
10
(7/2,9/2)3/z-
J~r: ~/ to 9 / 2 - is Et; ¢ d e c a y via 5 / 2 + parent; not consistent w i t h L=I in (d,p). A b s e n c e of p r i m a r y 3 from I/2+ state in t h e r m a l (n,~/) suggests J > 3 / 2 a n d therefore also not consistent w i t h L=I in (d,p). J~v: 3, to 7 / 2 - is MI+E2. J1r: L=t in (d,p), "y to 7 / 2 - is E2. JTr: L = 3 in (d,p). TI/~: u n u s u a l l y s m a l l B(MI)(W.u.)(944.53,) m a y suggest that o b s e r v e d Tt/~ belongs to u n k n o w n h i g h e r level w h i c h d e p o p u l a t e s via 15/2+ 2049.9 level with E'y<944. J~': 3' t o 1 3 / 2 + is A J = I M1 ( f r o m 3,(8) a n d T I / 2 i n ( a , 3 n 3 , ) ) , n o 3, to <13/2. T1/2: f r o m ( a , 3 n 3 , ) ( 7 7 H a 0 4 ) . JTr: 7 to 7 / 2 - is Mr, n o 3, to 3/2. J1r: L=I in (d,p), 3, to 7 / 2 - is E2.
1/2-
J~r: L = I
17/2 5/2+t
J1r: 3, to 1 5 / 2 + is hJ=t, D+Q; n o "/ to J<15/2. JTr: "y to 7 / 2 - is EI+(M2). Jvr: 3, to 7 / 2 - is MI, 3, to 9 / 2 - is MI,E2, n o ~/ to 3/2-,3/2+. Jvr: L = 4 in (d,p), not consistent w i t h tentative 3 / 2 - in (p,p') data for IAR.
3/2-
5/2-t t5/2+
=3
ns
(7/2,9/2)7/2+,9/2+
5/2-
J~:
7 to
5/2-
J~r: J~r: JTr: J1r:
L=3 -y to 3, to V to
17/2+
(5/2
712)-
5/2-
7/2 -t
1/2- 3/2-
(d,p),
7/2-
IAR d a t a
is M I + ( E 2 ) ,
in
(p,p')
7 to
3/2-
(77C102).
is M I + ( E 2 ) .
in (d,p), 7 to 3 / 2 - is MI+E2. 1 3 / 2 + is A J=2, E2; 3, to 17/2 is A J=0, 7 / 2 - is MI, possible 3, to 3/2-. 7 / 2 - is Mr+E2, "y to 3/2-.
J~r: L = I i n ( d , p ) , p r i m a r y -/ i n ( n c / ) E = t h e r m a l . w i t h IAR d a t a i n ( p , p ' ) (77C102). J~r: L = 6 i n ( d , p ) . E ( l e v e l ) , J 1 r : IAR d a t a i n ( p , p ' ) (77C102). J~r: 3, t o 1 7 / 2 is A J - I , D; n o T t o J < 1 7 f 2 .
13/2+,11/2+
6
in
712191~
16 18
6 12
Continued
on
next
pa~e
(footnotes
51
at
end
of
table)
MI+E2.
Not
consistent
145~
62bm83-~~
NUCLEAR
DATA
145~ 62 . . . .
SHEETS
14~Sm Adopted Levels (continued) J~
E(level) 2 8 2 4 14 2 8 4 2 19 2 9 2 6 13 2931.6 5 2 9 6 0 16 2978.3 7 3 0 1 8 13 3 0 9 6 10 3118.5 8 3120.1 9 3140.1 5 3 1 8 3 15 3 2 4 6 20 3 2 7 5 20 3 3 0 2 13 3 3 3 5 17 3366 f4 3369.7 7 3 3 9 7 14
t From
Comments
21/2+
J~:
21/2(+)
J~r: 7 t o
7 to
17/2+
19/2
23/2 23/2 3/2-
J1r: Jw: Jlr: J1r:
25/2+
J~r: 7 to 2 1 / 2 +
is AJ=2,
E2; ? to
729
1105
0
1423 1436 1469 1538
189 30 0 0
1607.29 1627.55 1658.50 1706.0
1774.0 1774.1 1804.24
1848.1 1857.68 1876.64 1972.63
1996.90
is A J = I ,
D.
L=3 i n ( d , p ) , J ~ r = I / 2 - f r o m IAR i n ( p , p ' ) (77CI02). 3, to 2 1 / 2 is A J = I , D; n o 3, to J < 2 1 / 2 . 7 to 21/2 is A J = I , D; no 3' to J<21/2. L = t i n (d,p); IAR data i n (p,p') (77C102).
is A J=2, E2; n o
7 to J<21/2.
3433 3446 3480 3506 3534 3558 3596 3633 3655 3679 3726 3783 3833 3856 3882 3916 4010 4027
17 20 20 20 2O
14 14 21 21 14 14 15 15 21 f5 20 20 15
3'(6) in c decay of oriented nuclei t45Eu (82De26).
E(level)
1547.31
19/2
is A J = I , d; n o 7 to J s l S / 2 .
145Sin Adopted
893
E(level)
E7 893 1105 1423 542 364 433 1538 111 653 1547 713 191 733 764 1658 168 283 1706 669 1774 256 910 1804 1848 434 1857 453 1876 314 365 536 1078 1972 338 449 1103 1996
729 24 0 2 189 564 17 0 2 0 3 0 2 087 24 512 19 21 4 551 27 24 1 45 37 7 7 5 18 44 2 0 3 1 3 0 3 0 3 0 3 91 6 55 6 21 4 1 3 414 25 68 5 46 8 64 6 13 5 37 5 67 25 909 30 74 6 33 6 7 3 40 12 25 95 8
17
"Mult.
100 100 100 100 100 22 9 1 0 0 13 13.3 4 i00 8 0.5 ! 100 1 0 0 20 1.8 6 11.7 2 I00 5 54 12 27 4 lOO 23 100 10O 1.9 4 5.9 3 100 8 IO0 49 4 100 5 2.5 3 100 5 12.2 9 1 4 . 3 12 6 100 4 21.1 12 1.0 I
E2 E3 M1 E1 MI+E2
MI+E2 E2 MI+E2
+0,04
I00 5
MI+E2
+0.241
Continued
radiations
7
6
a
Comments
B(E2)(W.u.)=0.61 21. B(E3)(W.u.)=32 5.
Q MI+E2 E1 M2+E3 MI MI+E2 (El) MI+E2 MI+E2 MI+E2
-1.98
6
+0.62
+12-10
+0.084 +0.16 -2.07
1.55
0.277
16
7 6
MI+E2 MI+E2 M1 E1 El
0.124
E1 E1
MI+(E2) MI+E2 MI+(E2) MI+E2
on
next
+0.03 12 -1.29 +6-7 +0.04 +27-29 -2.2 +7-13
+1.8
pase
0.073 0.034
1
+14-8
0.044
11
(footnotes
52
0.028
at
end
of
table)
83 -
2
145~ 6 2 ~ L - - 8 3 -3
NUCLEAR DATA SHEETS
145Sm Adopted E7
E(level) 2049,9 2110,60 2133.47
2155.39 2192.96
580 944 252 2110 474 526 588 1239 2133 2155 388
2329.39 2340.59
2346.48
2385.89
2387.32 2425,85
2438.0 2481.98
2508.34 2513.37 2551.9 2558.89
2710.3 2784.9
2931.6 2978.3 3118.5 3120,1 3369.7
radiations (continued) a
Mult.
9 9 2 6 9 16 60 9 84 9 03 5 0 1 16 57 6 41 2 32 7 9 5 18
2192.86 2229.9 2276.60 2293.03
7
7
2.39 100 8 28 9 100 6 52 33 48 . 8 24 11 2 55 54.8 1 0 0 12 100 33 9 100
180,0 2 2278 58 6 869 81 29 2292 81 2 3 2329 37 6 185 23 42 463 67 58
100 100 100 75 100 26 74
917.13 2340.8
51 100
20
5
6
50 25
2 2 2 2 3 2 2 2
+0.31
+10-9
MI+E2 E2 MI,E2 MI,E2
-0.61
+7-9
0.0187
Mult.: see c o m m e n t in i4SEu decay data set. Mult.: see c o m m e n t in 14~Eu t decay data set.
M1,E2 D+Q EI+(M2) M1,E2 M1 MI,E2
5
+0.067
30
Mult.: see c o m m e n t in 14~Eu E decay data set.
100 7.4 2.27 100 3 40.0 8 7.6 15 100 9 100 56 6.7 22 10 6 80 3 3 5 12 100 4 4 7 16 100 6 100 46 9 1 0 0 17 8.3 42 IO0 10 4 10 4 1 0 0 15 20 2 100 7 100 8 6.7 26 100 100 100
3 3
MI+E2
MI+E2
8 9 22 7 7
2
0.0229
20 I I
2387.32 292.25 1002.95 1532.05 2425.80 208.1 1333.0 485.05 823.30? 1588.397 2481.99 1014.35 2508,34 172.39 2513.37 2551.9 218.19 425.50 2558.82 480.4 346.9? 555.0? 735.0 221,0 493.6 268.0 540.0 140.2 188.5 438.1
11 14 40
B(MI)(W.u.)~8.5= I0 -s .
(El) MI
Mult.: see c o m m e n t in t45Eu t decay data set.
821 3 1 26.7 24 1.04 31.3 63 O0 3 35 6 100 5 75 4 4.8 13
2
Mt
E1
83 71 4 18 9 71 18 39 30 31
58 52 25 10 25 20 38 23
Comments
14 31
212.92 349.46 373.59 887.90 1452.51 2346,46 757.59 838,638 949.529 2385.22
3 2
145¢m 6 2 ~ = 1 L 8 3 _~
M1 MI+(E2)
-0.19
+21-41
+0,81
+18-I0
0.048
M1
Mi+(E2) MI MI M1
See c o m m e n t data set. (MI) MI+E2 MI MI MI+E2 E2
M1 MI+E2 MI+E2
El
(Mr) D
D D E2 D
0.0133
D D E2
0.018
53
in
t45Eu
c decay
145~_ 6 2 ~ t I 1 8 3 - ~~
NUCLEAR
fl+,e Data
from
DATA
SHEETS
laSSm ~ Decay
1642 5~ 8~3
77Ro29,83Vo10
M e a s u r e d : 7 ( 7 7 R o 2 9 ) , ce, K x r a y , - / - K x r a y c o i n , ~/(t) ( 5 9 B r 6 5 ) . Others: 70Be65, 81BeYJ. For i n t e r n a l bremsstrahlung s p e c t r a see 5 9 B r 6 5 , 7 7 R o 2 9 . E(level)
Ee
(127 (559
3) 3)
492.55 61.22
(620
3)
0.0
Iet$
Lo~
[t
0.0034 93 2
10.7 7.78
7 2
9.0
Comments It: e K ( e x p ) = 0 . 2 7 3 ( 7 1 M y 0 1 ) ; e ( L + M + N ) / e K ( e x p ) = 0 . 6 1 (59Br65). It: t K ( e x p ) = 0 . 8 2 8 20, e L ( e x p ) / e K ( e x p ) = 0 . 1 6 2 18 ( 8 1 B e Y J ) ; c(L+M+N)/EK(exp)=0.20 2 (59Br65).
!
1
~" e K ( e x p ) ( 6 1 ) = O . 8 2 8 20, e K ( e x p ) ( 6 1 ) / t L ( e x p ) ( 6 1 ) = 0 . 1 6 2 18 (81BeY J); e(L+M+N)(61)/~K(exp)(61)=0.20 2, e ( L + M + N ) ( 4 9 3 ) / z K ( e x p ) ( 4 9 3 ) = 0 . 6
eK(exp)(g.s.)/tK(exp)(61)=0.08 2, I (59Br65); ~K(exp)(493)/zK(exp)(61)=0.428
29
(83Vo10) ~t F o r
intensity
per
100 d e c a y s ,
multiply
by
1.0.
"y(145pm) f r o m I')' n o r m a l i z a t i o n : E7 $
eK(exp)(g.s.)/eK(exp)(61)=0.08
E(level)
61.22
2
431.4
from
5
492.55
I ? ~§
61.22
7
145Sin ~ Decay
Mult. MI+(E2)
i00
492.55
0.0004
492.55
0.027
2 (59Br65). 6
a
<0.045
6.3
Comments 5
Mult.: a(K)exp=5.3 1, K / L = 6 . 5 4, L / M = 5 . 1 3 ( 5 9 B r 6 5 ) ; K / L = 8 . 1 8, L / M = 4 . 0 8 ( 5 9 D z 0 6 ) ; L 1 / L 2 = I I . I 12, L I / L 3 = 3 9 6, L 2 / L 3 = 3 . 5 6 ( 6 7 B a 2 2 ) . 17:I(431"y)/I(4927)=0.016 I (77Ro29); other: <0.022 (83Voi0). E~: o t h e r : 4 9 2 . 3 1 15 ( 7 1 M y O l ) .
]
t From 83Vo10; 77Ro29 did not observe the 120.87 reported by $ F r o m 8 3 V o 1 0 e x c e p t 431"? w h i c h is f r o m 7 7 R o 2 9 . § For absolute intensity per i00 decays, multiply b y 0.127 17.
7(145Sm) Measured:
77Ro29,83Vo10
from
144Sin(n,7)
70Be65.
E=thermal
78WaZM
~.
E7
E(level
3617.1 4078.8 4596.7 4624.1 4784.5 5149.8 5862.96
6757 6757 6757 6757 6757 6757 6757
4 4 4 3 3 2 20
07 07 07 07) 07) 07) 07)
1.29 8 3.36 15 2.35 10 4.96 21 16.5 7 48.6 20 10O 4
t45Sm
Levels from
144Sm(d,p),(d,pT)
75Bo22,67Ch16
E = I 9 MeV 7 5 B o 2 2 ) , 12 MeV ( 6 7 C h 1 6 , 6 5 K e 0 9 ) , 15 MeV ( 6 6 J o 0 2 ) , 5.8 MeV ( 7 4 N o 0 5 ) . M e a s u r e d : o(E,O), DWBA a n a l y s i s (75Bo22,74No05,67Ch16,66Jn02), a(E) (65Ke09), P7 E(level)
T
Jw§
L
S'
0.0 895 4 1108 4 1427 6
7/23/213/2+ 9/2-
3 1 6 5
6.82 2.13 6.44 6.41
1611 1665 1784
1/25/29/2-
I 3 5
1.26 1.25 3.19
18105
9 8 8 8
5/2+
(67Ch16).
Comments
L: 6 6 J o 0 2 r e p o r t supported by
also weak others.
component
with
L=I,
S'=0.06
not
E ( l e v e l ) : 66JOO2 o b s e r v e d l e v e l 1800 w i t h w e a k L = I , S ' = 0 . 0 3 component. J~r: i f i d e n t i c a l with 1804.26 5/2+ level observed in ~ decay.
4.65 Continued
coin
on
next
page
(footnotes
54
at
end
of
table)
-4
NUCLEAR
18425~¢t ~m, 8 3 _ ~~
'45Sm Levels f r o m E(level)
t
L
J~§
a
7/2-
1979
8
3/3-
2002 8 2 1 1 2 5 f4 2138 9 2164 9 2 1 9 9 5 16 2297 9 2 3 4 9 10 2 3 9 0 5 10 2 4 2 9 10 2 4 6 8 5 15 2 5 1 2 5 15 25635 11 26295 15 26615 17 2 6 7 4 10 2 7 2 4 5 16 2 7 5 0 5 18 2 7 9 7 5 12 2 8 2 4 5 14 2 8 4 2 5 19 2 9 2 6 5 13 29605 16 30185 13 3096 10 3131 10 3183 15 32465 20 32755 20 3 3 0 2 5 13 3 3 3 5 5 17
34465
16426~¢I I_1 8 3 - - D
75Bo22,67Ch16 ( c o n t i n u e d )
S'
Comments J1r: o b s e r v e d L=I a n d J = I / 2 - , 3 / 2 - (75Bo22,67Ch16) n o t c o n s i s t e n t w i t h J = 7 / 2 + (14SEu c d e c a y ) a n d w i t h a b s e n c e of p r i m a r y 7 to t h i s level f r o m 1 / 2 + t h e r m a l n e u t r o n c a p t u r e s t a t e in (n,7). E(level): t h i s level was n o t o b s e r v e d by 66Jo02.
1883
33975 34335
SHEETS
*44Sm(d,p),(d,pT)
18549 9
33665
DATA
5/2-
0.67 0.53 2.03
3/2-
0.14
1/2-
0.15
7/2+,9/2+
0.18 0.22
1.5$
15
5/2-
4.65
5/2-
0.43
1.55 tt 55
45 25 0.21,3.55
1+6
25 1.55
E(level): f r o m
75Bo22.
E(level): f r o m E(level): f r o m
75Bo22. 75Bo22.
<135 <135 <135 4.55
25 205 0.55 0,27
5/23/2-
55 35 185
E(level)
55 205
36555 21
14 14
<485
17
<485
20 20 2O 2O
<485
34805 35065 35345 35585 14 35965 14 36335 21
t
/4
95
36795 3726 $ 3783 $ 36335
35
39565
21
25
38825
15
185
$ 205 8$
f4
17$ 145 35 175 11 $
15
15
3916 $ 2 0 4 0 1 0 5 20 40275 /5
5 5
S'
25
245
From 65Ke09. $ Observed only by 65Ke09; relative a (a=lO0 for g.s.). § Adopted values.
7(145Sm) F r o m 67Ch16, E7 d e d u c e d
E7 716 770 895 1084 1108 1243
E(level) 1611 1665 895 1979 1108 2138
E7 1427 1665 1979 2002 2138
from
from
t44Sm(d,p),(d,pT)
E(level) by e v a l u a t o r .
E(level) 1427 1665 1979 2002 2138
55
75Bo23,67ChI6
145~
62~m83-~
NUCLEAR
7(l*SSm) Measured:
E7 140.2 168.0 180.0 188.5 208,1 221,0 268.0 283.1 346.9? 364.0 433.0 438.1 480.4 493.6 540.0 555.07 580.9 669.0 735.0 893.6 944.9 1105.0 1333.0 1423.0 1538.0 1706.0 1774.0
T, 7"Y, 7 ( 8 ) ,
yield,
E(level) 2 3 2 2 3 2 2 3
3118 1706 2229 3120 2438 2931 2978 1706 2784 1469 1538 3369 2710 2931 2978 2784 2049 1774 2784 893 2049 1105 2438 1423 1538 1706 1774
3 2 3 2 2 2 3 3 3 3 2 3 2 2 2 3 2 3 3
~" U s u a l l y
9.7 1.4 33 3 13 1 2.5 6.0 15.0 0.7 1.0 11.0 1.0
10.8 31.0 30 2 1.04 1.0 1.0 1.8 9 .7 2.7 43 . 2 I00 5 33 3 2.5
a(E,8),
0.0 889 7 I103 5 1427 5 1 7 9 3 30 2014 2 7 1 3 30 t
Comments Mult.: Mult.: Mult.: Mult.: Mult.: Mult.: Mult.: Mult.:
MI+E2
Mult.: A ~ = + 0 . 0 3 7, A 4 = + 0 . 0 6 10.
E2 0 E2
Mult.: Mult.: Mult.:
Aa=+0.37 A2=-0.03 Aa=+0.39
6, A 4 = - 0 . 1 8 11. 6, A ( = + 0 . 1 8 8. 4, A 4 = - 0 . 0 3 5.
4 4 3
Mi+E2
15
D
5 30
E2 MI E3 E2
Mult.: Mult.: Mult.: Mult.: Mult.: Mult.:
A2=+0.05 Aa=-0.21 A2=+0.30 Aa=-0.22 Aa=+0.42 Aa=+0.30
6, [I, I, 3, 2, I,
Mult.: Mult.:
A ~ = + 0 . 2 5 10. A a = + 0 . 4 9 10,
5 5 12 I 4 10
4 8 25
Aa=-0.18 Aa=+0.38 A~=+0.09 Aa=-0.18 Aa=+0.31 Aa=-0.21 A~=-0.21 Ae=-0.03
f, A 4 = + 0 . 0 1 [8. 8, 4 4 = + 0 . I 0 8, A 4 = + 0 . 1 4 2, A 4 = - 0 . 0 7 5, A ¢ = - 0 . 0 ~ 17, A a = + 0 . 1 7 2, A 4 = + 0 . 0 8
A¢=+0.19 A4=+0.I0 A4=+0.19 44=+0.I0 A4=+0.05 44=-0.01
1. 10. lO. 7. 3. 11. 2.
8. I0. 2. 8. 3. 3.
5
6
Q MI+E2
1.0
5 El; t h e r e f o r e ,
Levels
from
it
was
assumed
144Sm(ct,3He)
A4=+0.35
that
17.
D+Q is MI+E2,
E=40
MeV
not
El+M2.
81Rel0
DWBA a n a l y s i s . L
da/d~(30°)
7/23/213/2+ 9/211/2-
3
229
8
6 5
398 166 49
10 7 5
13/2+,II/2+
6
36
Z(level)
77Ha04
MeV
D Mr+E2 D+Q D Mr+E2 D D
6
t4SSm Measured:
8 3
2.6
with
E=37
~62,~ 4 5 ~ ~ L 8 3 _ nv
Mult. ~
4.5
compete
t44Nd(a,3nT)
SHEETS
~'(t) ( 7 7 H a 0 4 , 7 5 K 1 0 1 ) .
I7
5 0 9 I 0 6 3 0 9 0 0 7 3 6 3 9 9 0 9 6 9 0 0 0 0 0 1
M2 c a n n o t
from
DATA
j~t
$
Comments
da/dD(30°):
observed
at
60 °.
3
Adopted values. In ~b/sr.
t4SSm Measured:
E(level) O.0 890
from
t4¢Sm(13C,t2C)
E=72
MeV
75Th09
ff(E,e), DWBA a n a l y s i s .
J~ 7/23/2-
CzS 0.60 0.44
1610
I/2-
0.82
1660 2000 2170
5/2-
0.41
I" Adopted
Levels
Comments C2S: used for normalization
of other C2S.
E(level),J~r,C2S: doublet E(level),Jvr,CaS: doublet
E=1972 3/2-, CaS=0.18 a n d E=2002 5/2- CaS=0.24. E=2134 3/2-, C2S=0.I0 a n d E=2155 I/2-, CaS=0.20.
with with
values.
56
145p, 63~82
-1
NUCLEAR
145Eu Q(fl-)=-SO50
50; S ( n ) = 1 0 4 2 4
E(level)
J~?
0.0
5/2+
329.92 716
21; 8 ( p ) = 3 3 1 2 . 5
7
0 3
808 1041 1459 1567 1600 1601 1758 1761 1765 1828 1844 1845 1880 1915 2027 2042 2048 2054 2079 2114 2149 2188 2203 2244 2284 2318 2321 2327 2349 2402 2416 2422 2463 2487 2494 2504 2525 2544 2562 2573 2585 2606 2642 2699 2742 2754 2779 2813 2819 2836
33 5 71 6 7 1 12 7 26 6 2 4 O3 6 32 8 8 1 5 4 6 4 32 9 62 5 5 2 8 9 8 1 1 3 6 4 4 4 5 1 4 68 8 72 7 3 6 0 ! 25 9 8 1 3 1 5 1 2 2 88 8 41 9 2 2 9 7 5 2 6 4 7 1 1 2 2 1 7 I 7 I 1 t 9 1 5 5 1 i 4 6
2838 2859 2862 2911 2918 2971
7 2 7 l? 9 8
1 1 6 7
Adopted
SHEETS
145W, 63~uu82
Levels
85Wa02. Comments
Tt/z 5,93
d
4
7/2+ 11/2-
28
DATA
490
30
ns
1/2+
3/2+ (7/2)+
%r+%fl+=100. Tt/2: f r o m 80Ho33, 70Ch09; o t h e r s : 5,93 d 10 (67Hi05), 5.95 d 10 63Fr02, see also 63We04, 65De29, 67Ob03. J1r: a t o m i c b e a m ( 7 6 F u 0 6 ) , L=2 i n (SHe,d), /~=1,1 3 ( 6 3 V a 0 2 , 8 3 K r 1 9 ) . Jlr: L = 4 i n (SHe,d), ~ f r o m 1 1 / 2 - i s o m e r h a s m u l t higher L = t (RUL). p~=+7.458 44 (80K107,79K102), Tl/2: f r o m IT d e c a y ( 7 5 F r 1 8 ) . J1r: L=5 i n (3He,d), 3" to 7 / 2 + is M2. J~r: L=0 i n (3He,d). J~r: L=2 i n (3He,d), log f t = 6 . 7 4 v i a 1 / 2 + p a r e n t ,
3/2+$
J~r: JTr: JTr: J1r:
13/2(5/2)+
J1r: 3, to 11/2- is A J = I MI+E2, JTr: L = 2 in (SHe,d), n o ~ d e c a y
11/23/2+
L=4 3' to L=2 3" to
in (~He,d), possible 3" f r o m 3/2+. 11/2- is A J = 0 MI+E2. in (SHe,d), log ft=5.76 via 1 / 2 + parent. 1/2+.
excit. via I/2+
parent
(log ft>8.2).
3/2+,I/2+#
3/2+$ 3/2+*
J1r: L = 2
in (SHe,d).
3/2+$
15/2+
J1r: "7 to 1 3 / 2 J1r: -y to 11/2-
15/23/2+~ (3/2+)§
3/2+$
is A J = l is A J = 2
I/2+
JTr: L = 2 in (SHe,d). J~r: if identical w i t h
3/2+$ 15/2-
J1r: 3, to 1 1 / 2 -
(3/2+)§
El, excit. E2, excit.
2480
is A J = 2
12 level w i t h
L=0
in (SHe,d).
E2, excit.
3/2+$
17/219/2-
J1r: 3" to 15/2- is A J = I 5.5
ns
5
19/221/2-
MI+E2,
3" to 13/2-
Tt/~: f r o m (a,p2ns') (79Ha48). J~r: 3" to 15/2- is A J = 2 E2, excit.
Jvr: 3, to 15/2J~r: 3' to 1 9 / 2 -
is A J = 2 is A J = I
E2, excit. MI, excit.
! ! Continued
on
next
page
(footnotes
57
at
end
of
table)
is A J = 2
E2.
than
-1
145~ -631"'U82--;~
NUCLEAR
*4~Eu Adopted
j~t
E(level) 2988.1 3001.5 3062.14 3092.0 3101.1 3176.3 3183.0
8 2 2 2 8
4069.9 4122.8
30 30 3 4 9 3
4131.4 4156.7 4184.0 4258.6 4275.9 4281.8 4308.6 4364.8 4390.7 4410.1 4424.0? 4428.3 4432.0? 4436.1 4454.4 4463.8 4472.8 4496,6 4502,8 4517,9 4536.9 4547 2 4555 4 4566 4 4577 9? 4593 0 4634 6 4645 6 4656 3 4663 8 4685 4 4700 3 4709 9 5152 2
Jvr: ? to 21/2 is A J = I MI+E2.
3/2+~
3/2+t 3/2+ $
3/2+~
(3/2+)§
3/2+ ~ 3/2+t
(3/2+)
j~t
1
10
Comments
(3/2+)§ 27/2+
J1r: ? to 2 5 / 2 + is A J = t MI+E2, yield.
3/2+t,
3 3 1 2 1 3 1 3 2 I
3/2+~ (3/2+)§ 3/2+t 3/2+t 3/2+$ 4
(3/2+)§
1 4
3/2+$ 3/2+)§
1 9 6 3 1 1 4 5 1 1 1
3/2,1/2)# 3/2+,1/2+)#
3/2+$
3/2+t 3/2+)§ 9
2 2 9 9 2 6 3 4
3/2+)§ 3/2+)§ 3/2+t
3/2+~ 3/2+~ 2912
J~: 3, to 2 7 / 2 A J = I d, yield.
§ 9340 10210 10780 10940 Ii000 11140 11220 11320 11340 11490 11500 11640 11690 11780 12040 12160 12350 12430 12490
3/2+~ 25/2+
JTr: ? t o 2 3 / 2 is AJ=t El, yield.
3/2+$
30 1
6 3 ~ . 6 2 - ~o
S(level)
Comments
(3/2+)§
23/2-
1 4 5 L~,
SHEETS
Levels (continued)
4
2
3199.1 2 3220 6 1 3229 7 10 3238 0 3 3 2 5 3 6? 3 3261 1 2 3267 2 3 3280 9 2 3312 5 2 3343 5 3 3383 2 3 3 8 9 17 4 3397 6 2 3408 9 2 3411 6 2 3444 2 2 3451 6 20 3507 4 ? 20 3 5 2 0 O? 7 3525 67 7 17 5 3547 3561 9 30 3576.4? 4 3598.6? 3 3620.2 4 3628.3 2 3643.8 3 3675.7 2 3705.4 2 3738.9 20 3747.2 3 3768.9? 4 3847.9 2 3879.8 20 3888.9 4 3920.7 5 3931.7 6 3939.3 7 3944.6 30 3949.8 4 3902.9 5 3976.3 9 3988.9 4003.9 4014.1 4021.6 4023.8 4044.5 4047.9 4051.7
DATA
(3/2+)§
In establishing the values of aJvr=2 yes w e r e ruled out. c ~: log ft<8.0 via I/2+ parent, q, § log ft<8.0 via 1 / 2 + parent, 7 # log ft<6.2 via 1 / 2 + parent. @ Analysis of I A R in (p,p') o n
J~r, the following a s s u m p t i o n s transitions w i t h log ft<6.2 are to 7/2+. to possible 7/2+. polarized
p.
58
w e r e tlsed. For AJTr=0,t no.
7/2-@
3/2-~ 9/2-@ 1/2-~ 5/2-@ 9/2-@ 7/2-~ 3/2-~ 5/2-@ 3/2-@
t/z-@
(3/2-) @ 5/2-~
5/2-@ 7/2-@ (5/2-)@ (11/2-) @
1/2-@ 3/2 -@ e transitions
with
log ft<8.0
is
16435~~u,8 2 - - ~
NUCLEAR
q
DATA
145Eu Adopted E(level) 329.92 716.0
808,33 1041,71 1459.7
1567.12 1600.26 1601.2 1758,03
1761.32
1765.8 1828.5 1844.6 1845.32 1880.62
1915.5 2027.8 2042.9 2048.8
2054.1 2079.1 2114.3 2149.6 2188.4 2203.4 2244.4 2284.1 2318.68
2321.72
3337,3 2349,0 2402,25 2416,8 2422.3
2463.5 2487.2
E7 329.9 386.6 716.0 808.4 1041.8 1129.8 1459.6 1567,2 1800,1 885,2 716,2 949.7 1427.9 1757.9 719.9 952.6 1430.8 1436.2 1499,1 1128.6 1845.4 838.8 1072.3 1880.6 1915.5 1220.3 2037.8 1334.4 2042.9 287,2 589.0 1719.1 2049.1 2054.1 1750.17 2079.1 514.07 1784.4 2149.6 1380.1 2187.8 1872.6 2203,4 399,8 1568.1 751.0 1988,5 2318.9 722.0? 754.6 1513.4 2332,0 2327 3 2349 0 1593 8 305 5 2416 8 310 1 854 I 1381.0 1613.9 1421.7 2463.3 1678.6 2157.9 2487.8
I 3
3 1
I 1 3 1
1 3
2 ! 20 1 1 3 4 2 3 3 1 1 1 !
2 20 1 20 1 20 20 2 4 ! 20 1 20 ! ! i 3 20 1 3 3 20 1 1 20 2 2 4 7 1 1 30 1 30 20 20 1 1 8 2 20 3
100 100
1 8435~wu .8 2
31 radiations
a
17
Mult.
6
if MI M2
0.0699 0.1678
E3
0.01341
28 2 100 100 30 4 100 11 100 100 100 0.21 2 2.00 12 0.35 9 tO0 6 7.0 7 100 6 4.1 8 100 100 109 100 0.92 6 8.66 100 6 tO0 10.8 27 100 7 8 4 14 100 20 0,7 1 1.4 3 100 7 14 2 100 30 5 I00 2 1.8 5 I00 8 100 100 29 2 6 11 24 3 100 7 IO0 100 17 3 1 0 0 11 58 4 6 ,2 10,2 100 6 34 4 100 100 100 2.1 6 100 6 0.8 2 26 4 42 6 100 8 100 14 I 0 0 14 100 15 82 8 6 9 13
SHEETS
Comments
Mult.: see 79K102, B ( M 2 ) ( W . u . ) = 0 . 1 8 3 19. B ( I ~ 3 ) ( W . u . ) = 4 . 0 5.
MI+E2
~: - 2 . 5
D+Q MI+E2
<~: +1,30
E(level) 2494.88 2504.41
E1
2525.2 2544,9 2562.5
E2
C o n t i n u e d on next
2573.6
2585.7 2608.1 2642.2
2699.7
2742.7 2754.1 2779.9
pa~e
+15-25.
E3'
at
Mult.
17
1686.8 1 2494 8 t 1696 4 1 2504 3 ! 2195 2 2 2 5 4 4 9 '7 646 0 20 9 6 1 0 20 2232 6 2 2562 7 7 329 2 3 972 0 3 1858 03 984 0 20 2585 7 I 2606 1 2 1598 620 2313 0 20 2 1 2642 818 0 20 1658 0 I 1891 0 2 2700 9 9 1934 8 20 7 I 2742 1 1 2754 933 7 20 2 2 1014 2779 9 1
(footnotes
59
+8-79.
end
8 1 100 6 43 7 100 7 100 100 44 1 74 1 81 2 100 2 5 0 12 100 6 786 10 2 100 6 100 4.5 2.7 100 6 28 3 88 5 lOO 5 4.9 42 8 100 6 100 18.3 iO0 8 58 7
of
table)
E2 E2
5 4
9
4
- 0 ,-,
1 638u82-4 45~ --
NUCLEAR
14~Eu A d o p t e d E(level) 2813.5
2819.1 2836,4
2838.7
2859.2 2862.7 2911.1? 2918.9 2971.8
2988.1 3001.5 3062.14
3092.0 3101.1 3176.3 3183.0 3199,1
3220.6 3228.7 3238.0 3253.6? 3261.1 3267.2 3280.9 3312.5 3343.5 3383 3389.17 3397.6 3408.9 3411.6 3444.2 3451.6 3507.4? 3520.0? 3525.6? 3547.1? 3561.9 3578.4? 3598.6? 3620.2
I7
E7 239 5 530 2 569 3 968 5 973 8 22 5 262,5 552.7 992.5 1082,4 2838.7 1013.9 578.6 74.7 2110.6 2918.6 1215.0 2163.4 2971.9 2988.1 2192.0 3001.5 1181.5 1461.6 2021.7 2253.9 3063.1 3092.0 2292.0 3101.2 1576.0 3176.3 271.9 1599.0 2390.9 3198.3 1620,3 3220.7 1462.9 2429.6 3239.4? 3253.6? 3261.1 2458.9 3266.0 2239.7 3280.7 3312.5 3343 5 3053 2 3389 l? 2589 2 3079 0 3408 3? 2603 2 3114 2 2409 9 3177 4? 3188 O? 3520 9? 3525 6? 1466 6? 3547 I? 1796 1 3578 49 3 5 9 8 6? 3290 4 3619 8
3 3 3 3 20 2 3 3 20 20 1 20 3 3 1 2 20 1 4 4 20 2 1 1 20 2 2 2 4 2 20 2 3 20 2 4 1 3 20 1 7 3 2 1 20 3 2 2 3 4 2 2 20 2 2 20 20 20 7 7 20 5 20 4 3 4 7
100 6 22 4 16 4 90 6 100 ~36 33 7 1 0 0 14 2.9 12 8.5 15 100 6 100 100 100 100 9 38 3 39 6 1 0 0 10 18 4 100 6 2 15 IO0 11 26 5 tOO 7 38 3 28 3 24 2 100 3 1 19 tOO 6 4 6 11 100 9 100 1 0 0 26 8 2 21 44 8 tOO 6 0 35 2 100 100 9 30 4 109 tOO 29 4 tOO 17 3 0 13 IO0 9 100 tOO tOO tOO tOO tOO 7 56 7 I00 I00 100 I00 100 25 11.3 13 100 190 2 8 86 14 I00 100 I00 5 0 13 1 0 0 10
Continued
7 radiations
Mult.
Comments
0,1229 0,0192
MI E2 E2
9 5
6:-3.49 6:-0.44
23.46 0.0891 0.0104
E2 MI
4.36
MI+E2
0 0873
E(level) 3628.3
3843.8 3675.7 3705.4
3738.9 3747.2 3768
9?
3847
9
3879 3888
8 9
3920
7
3931
7
3939
3
3944
6
next
(continued)
a
MI+E2 MI+E2 D E2
on
1 63 4 5 ~~L 1 8 2 _
SHEETS
DATA
page
+41-52, +8-7.
B(M1)(W.u.)=0.012. B ( E 2 ) ( W . u . ) = 0 . 6 0 14. B(E2)(W.u.)=O.O06.
6:-1,96
+16-18.
E7 1513.2 2819.8 3299.2 3643.8 2633.1 2867.4 1648.9 2896.9 3705.8 1858.3 2149 0 3746 9 1366 17 1441 5 3769 O 2087 2 3039 5 3848 0? 1416 3 1561 9 3888 8? 2040 9 2073 9 3920 8? 6 1467 8? 3931 7 2056 2? 3940 0 2064
17 20 2 4 3 20 2 20 2 3 20 20 3 20 2O, 4 20 2 4 20 20 4 20 20 5 20 6 20 7 20
footnotes
60
at
81 2 4 l O 0 10 3 3 14 100 39 5 1 0 0 10 2 9 10 100 6 38.6 24 100 I O 0 21 5 0 11 1 0 0 13 20 9 20 6 l O O 18 7 8 12 13.2 13 100 64 27 1 0 0 14 100 29 2 6 10 13 3 i00 43 100 29 I00 25 8.8 25
end
of
table)
4
145p. 63,u u
NUCLEAR
82--,-)=
DATA
SHEETS
145~ 63 t',U82--O
14~Eu A d o p t e d 7 r a d i a t i o n s ( c o n t i n u e d ) E(level) 3949.8
3962.9
3976.3 3988.9 4003.9 4014.1 4021.6 4023.8 4044.5 4047.9 4051.7
4069.9 4122.8 4131.4 4156,7 4184.0
4258.6
4275.9
4281.8
4308.6
4364.8 4390.7
E7 2907 3141 3950 2083 3632 3962 793 2947 2158 3684 4012 4021 4023 2283 4043 1999 2293 2451 3009 3243 4051 2469 4068 146 3324 3801 3348 4155 2302 2422 2425 3376 4184 2144 2413 2691 3217 3928 4258 1576 2227 2396 2509 2675 4275 1755 2077 2202 2521 2714 3473 3953 4281 1782 1844 2539 2708 3977 4307 3556 4364 2203 2276 2508 2624 3582 4390
2 7 3? 7 7? 7 9 20 7 3 9 5 3 3 2 20 6 20 3 3 3 9 6 4 8 9 5 3 8 4 0 20 5 2 9 2 7? 2 2? 7 2 9 6 1 9 6 5 3 9 20 3 3 4? 3 0 15 O 20 9 1 6 ! 9 7 6 4 2? 3 3 2 0 9 2? 6 8 4 4 9 0 20 0 1 5 4 2 20 2 3 9 9 O 20 9 20 0 20 5 20 4 5 9 5 3 20 7 9 9 20 0 20 O 20 5 1 9 5 3 4 5 3 5 5 0 20 1 6 0 20 7 2 9 3 7 5
I?
Mult.
100 23 89 9 26 6 100 26 56 7 7 8 15 100 100 100 100 7 6.09 100 tOO 100 12 92 15 i00 67 20 I 0 0 20 34 3 133 8.7 13 1 0 0 16 19 3 100 7.8 26 100 9 1 0 0 13 26 4 7.8 26 39 4 100 7 12 3 11 .5 10 1 0 . 9 15 100 6 6.2 12 4.1 6 14.4 9 10.9 12 13.6 43 100 9 25 4 13 5 46 7 59 6 26 6 37 8 35 8 2 2 11 44 3 100 6 8.4 17 39 4 46 13 0 4 13 6 82 8 53 6 100 6 5 5 13 100 6 I00 2 5 11 . 5 3 9 44 13 3 3 12 79 6 42 4
Continued
a
E(level)
2091,4? 2 2360.9? 4 2809,9 2 2842,9 2 3601.5 3 4081.2? 4 4409.8 5 2662,7? 2 2670.0 20 2828.2 1 2860.9 2 4427.8 5 2670,72 2 2387.3? 2 2554.8 7 2677.9 2 2836.0 2 3394 5 3 3626 2 9 4107 0 5 2573 9 1 2609 6 2 2697 2 9 2853.2 2 3413 1 3 3645 8 3 4453 8 7 3656 2 7 4463 1 6 2591 3 20 3664 1 4 4473 3? 5 2738 7 1 3454 3 3 3687 7 3 2100.4 1 2181 2? I 2 4 5 3 O? 2 0 2622 1 1 3460 9 3 3694 3 3 4502 6 6 4188 2 4 4517 5? 5 4536 9 5 2083 7 1 2789 5 2 2947 1 3 2980 1? 3 3505 3 4 3738 7? 3 4217.2 4 4547.1 5 2797.4 2 2955.4 2 3512.8 3 4554.5 6 2800.7 2 2804.9 2 4 3757.7 4566.6 5 4577.8? 9 2992.9? 3 3550.7 3 3785.4 6 4593.4? 6
4410.1
E1 4424.0? 4428.3
4432.0? 4436.1
4454.4
MI+E2
0
6293
8
4463.8 4472.8
4496.8
4502,8
4517,9 4536.9 4547,2
4555.4
4566.4
4577.9? 4593.0
on
next
pa~e
footnotes
61
at
end
of
I7
E7
table)
82 37 57 100 85 45 55 100 45 100 31 15 100 27 31 43 I00 9
17 8 70 8 7
5 3 10 7 5 1 7 6 5 10 !
13 2 4.05 100 8 5O 8 78 20 47 5 58 3 75 6 26 4 100 5 0 50 25 4 6 23 I00 15 54 8 50 4 11.1 37 100 7 100 6 51 4 29 9.3 25 5 34 4 22 2 16 2 I00 12 32 4 I00 100 8 70 8 9 9 10 26 7 31 4 24 2 13 2 15 t 6 9 11 7 6 17 1 0 0 19 31 2 8 3 16 I 0 0 15 15 2 31 3 100 4 6 11 I00 9 25 # 7.0 18
14512, 63~u82
_ ~~
NUCLEAR
145Eu A d o p t e d E(level)
E'f
4634.6
3034 3826 4634 2597 2764 2884 2887 3604 4316 4645 4656.2 2902.3 3623.1 4663,8
4645.6
4656.3 4663.8
0 8? 9? 3? 8 1 9 2 3 7
3 4 9 2 1 2 6 3 4 5 9 2 7 9
100 32 18 28 51 77 32 100 29 33 100 100 34 17
E(level)
11
4685.4 4700.3
145EL1
SHEETS
T radiations
I'y
7 4 3 4 6 3 6 2 2
DATA
63
(continued)
E7
I~
4685.3 2175.8 3891.7 4370.7? 4699.6 1788.5
4709.9
Muir.
6 20
4 6 9 20 20 4
2831.0
3901.7 4379.9 1029.4
5152.2
82 - 6
7 3
1 0 0 31 59 9 19 3 6 . 3 31 100 13 32
37 16 t00
11 4
3
10 14 3
*y(145Sm)
from
t45Eu e Decay
78VyZX
M e a s u r e d : 7 (82De26,80AdZW,78VyZX,77BaZP,73Ne01,68Ad04,67Dr0[,67Hi05), ce7 coin (68Ad04), 77 ( 7 8 V y Z X , 7 7 B a Z P , 7 3 N e 0 1 ) , 7fl ( 6 8 A d 0 4 ) , p r o b a b i l i t y of E ( 8 3 S c 2 8 , 8 3 B e Z F ) , 7 ( 0 ) f r o m o r i e n t e d n u c l e i ( 8 3 V a 0 2 , 8 2 D e 2 6 ) , ce ( 7 8 V y Z X , 7 7 B a Z P , 7 4 B u 3 1 , 6 7 H i 0 5 , 6 6 A d 0 1 ) , f i T ( t ) ( 7 6 B e 0 9 ) , 7 7 ( 0 ) (78VyZX,77 BaZP,76Be09,75BuZA,670b03,66Go08,65De29,62A119). a ( K ) e x p w a s d e d u c e d f r o m e e ( K ) a n d I7 ( 7 8 V y Z X ) a n d n o r m a l i z e d to a ( K ) = 0 . 0 0 2 6 8 f o r 8 9 4 7 22. 80AdZW c l a i m t h a t 30 o f 94 7 ' s f r o m 7 8 V y Z X a r e d o u b t f u l but did not name them, therefore preventing evaluator from using their finding. Adopted decay scheme did not accommodate observed 7647-16587 coin and weak 18767-4687 coin (78VyZX). IT n o r m a l i z a t i o n : 1 ( 8 9 3 7 ) = 6 8 , 4 Z 2 5 (see c o m m e n t to I7(8937)). T ± / 8 9 4 " y = O . 0 6 6 5 (73Ne01). Eft+(0.0 l e v e l ) = 1 6 7 0 5 0 ( I f l + = l . 0 ) f r o m 67Ob03; o t h e r s : 1724 3 0 ( 6 7 H i 0 5 ) , 1740 4 0 ( l f l + = l . 0 ) (66Zh01). E f l + ( 6 9 3 . 7 3 8 l e v e l ) = 7 8 0 5 0 ( I f l + = 0 . 3 2 11) ( 6 7 0 b 0 3 ) ; o t h e r s : 786 4 0 ( 6 7 H i 0 5 ) , 7 9 4 15 ( I f l + / c e ( K ) ( 8 9 3 . 7 7 ) = 2 . 0 3) (68Ad04), 800 4O (I~+=0.33 6) (66Zh01). I~(1658.50 l e v e l ) = ~ K ( e x p ) = 0 . 8 4 1 2 4 (83BeZF). I~(1996.90 l e v e l ) = ¢ K ( e x p ) = 0 . 8 3 5 15 (83BeZF). e K ( e x p ) ( 2 5 0 8 + 2 5 1 3 ) / e K ( e x p ) ( 1 9 9 7 ) = 0 . 8 6 8 20; c K ( e x p ) ( E 4 2 5 ) / ~ K ( e x p ) ( 1 9 9 7 ) = 0 . 9 4 1 17 (83Sc28); ~ K ( e x p ) ( 1 9 9 7 ) = 0 . 6 3 5 15, c K ( e x p ) ( 1 6 5 8 ) = 0 . 8 4 1 2 4 (83BeZF). E f l + = 7 9 4 15 ( 6 8 A d 0 4 ) ; o t h e r s : 786 4 0 ( 6 7 H i 0 5 ) , 800 4 0 ( 6 6 Z h 0 1 ) .
ET t
E(level)
111.087 24 x120.44§ 8 x136.45§ 7 x160.69§ 6 172,397 38 19 x176.25 185.23 42 191.24 5 x199.21§ 3 212.92? 8 218.19? 11 x225.21 24 x230.0§ 2 x249.51 57 252.69 16
1547.31
2513.37 2340.59 1627.55 2346.40 2558.89
IT# 29 0 0 0 0 0 0 7 0 1 0 0
Mult.
4 9 3 1 05 1 24 2 15 5 21 5 09 5 87 17 45 5 1 6 11 2 08
~$
MI+E2
-1.98
Ml+E2
+0.084
a
6
1,550
3 1
2110.60
0
15
5
(El)
0.023
1804.24
9 2 4
M1 22 MI+E2
0,124 0.080
2 6
MI+(E2)
6 9
2425.85
0 39 0 04 0 37
x309.66 314.13
29 5
1972.63
0 05 0 79
26
Continued
on
next
page
+0.04 (footnotes
62
0.0727
+27-29
at
4
0.277
16
0 05
256.91 x269.11 292.25
Comments
end
of
Mult.:
¢~(K)exp=0,809 40.
Mult.:
a(K)exp=0.224
7.
Mult.:
a(K)exp=0.039
22.
Was o b s e r v e d o n l y c e ( K ) . Mult.: ¢x(K)exp=0.063 26 is l a r g e r t h a n a(K)(E1); however, decay scheme placement required El. Mult.: a ( K ) e x p = 0 , 1 0 7 25. M u l t . : ( x ( K ) e x p = 0 . 0 4 7 37. M u l t . : ( x ( K ) e x p = 0 . 0 9 1. D: -5.97-< ~-< 0.12. 21
table)
Muir.:
a(K)exp=0.061
10.
NUCLEAR
145~. 63L, u 8 2 - - ~~
~(145Sm)
E(level)
Evt 338.33 349.46 x355.18 365.37 373.59 388.95
425.50 x429.3§ 434.414 449.73 453.46
6 7
1996.90
2346.40
35
18
1972.63 2346.40 2192.98
14
2558.89
5 4
8
463.87?
58
x468.76 474.84 485.05
34
x497.31 526.03
39
9 58
5
536.67 25 542.564§ 17
x549.39 x560.40 x564.9§ x573.6§ x581,6§ 586,01 x621.79§ 653.512
x873.75
11
E1
2133.37 2481.98
1,7 1.7 0.9
2133.37
0.06 1 .61
2133,37
17 18 27
2346.40 1607,29
43
4 8
1627.55 2385.89
0.59
2481.98 2385.89 2293.03
Continued
+1.9
+14-8
0.044 0.0550
-2.2
+7-13 +21-41
0.034 0.0462
-0,19
+0.03
MI+E2
Comments 5
0.028
12
+0.31
0.019
+10-9
Muir.: a(K)exp=0,0040 4. Mult.: a(K)exp=0,059 6, Mult,: a(K)exp=0,003 2. M u l t , : a ( K ) e x p = 0 , 0 3 1 5. M u l t . : a ( K ) e x p = O . 0 4 2 5. M u l t . : a ( K ) e x p = 0 . 0 2 1 14. Mult.: note that m ultipolarity(388,95T) MI,E2 is inconsistent with multipolarity(2192.87) M1,E2, T h e s e m u l t suggest different parity for 2192.96 level. Mult.: a(K)exp=0,006 3. M u l t . : a ( K ) e x p = O , O 0 5 0 9. Only ce(K) observed, Mult.: 40. a(K)exp=0.0224 Mult.: a(K)exp=0.006 4. Mult.: note that multipolarity(463.67~) E1 is i n c o n s i s t e n t with multipolarity(2340.537) MI+E2. These mult lead to different parity for 2340.53 level, Mult.: a(K)exp=0,007 4. Mult.: a(K)exp=0.0027
16.
Mult.: a(K)exp=0.6156
11.
Et
Mult.: a(K)exp=0.0033 3; 7 ( 0 ) is i s o t r o p i c . Only ce(K) observed,
El
Mult.: a(K)exp=0.00315 15. Mult.: a(K)exp=0.07O 45. Mult.: a(K)exp=0.086 50. M u l t . : a ( K ) e x p = 0 . 0 O 8 1 9.
10
M1
5 5
(El)
10
MI
25.9 5 0.55 5 0.06 2 1 .67 8 0.08 4 0.50
a
5 1 3 3 8 [
2 I
1658.50
(continued)
E1
0.39 70 5
0.16 0.05 0.I0 0.30 0.36 0.08 240 5
78VyZX
E1
9 11 5
0.04 0,03 3.60 0.82 0.41 0.14
1 1
764.775 18 x778.60§ 7 823.30? 52 838.636 39 889.61 29
7 5
0.26
1547.31
18
E1 MI+E2 MI+(E2) MI,E2
2340.59
19
757.59
5
MI+(E2)
1972.63 1436.30
145~ 63tL, U 8 2 - - (
Mi
5
8
37
MI+E2
7
0.49
1857.66 1996.90 1876.64
2 I I
x674.33 687.90? 713.551 x727.3§ x729.1§ 733.45
1 07 0383 0 10 0928 0 77 0 18
SHEETS
5$
Mult.
I7#
E1
30 17
16
~45Eu ~ D e c a y
0.24 4 0,10 2 2.8 2
I 25 40
from
DATA
MI+E2
7
(MI)
next
pase
4.
25. Mult.: a(K)exp=0.039 Mult.: a(K)exp=0.0056 7. Muir.: 41. a(K)exp=0.0074 Mult.: a(K)exp=0.0061 33.
M1 MI,E2
28
on
+0.10
Mult.: a(K)exp=0.0087 45. Mult.: 25. a(K)exp=0.0055 Mult.: a(K)exp=0.0069
(footnotes
63
at
end
of
table)
16435,p~, u 8 2 - - , .~,
NUCLEAR
~(145Sm)
E(level)
zTt x877.71 893.738
910.55 917.13 x923.1§ 949.529 x959.97 x963.84 x982.6§ 1002.95 x1022.1§. xi058.7§ x1063.53 1078.909 1103.12 1239.57 x1261.5§ x1266.6§ 1423.189
32
§ 24
6 20
1804.24 2340.59
30
1423,189
1.81 0.06 0.19 5.60
2346.40
0.90
2425.85
4 I 36 30
25 5 2 1
6 23 6
1972.63 1996.90 2133.37
2425.85 1547.31 2481,98 2508.73 1658.50 1804.24 1848.1 1857.68 1876.64 1972.63 1996.90 2110.60 2133.37 2155.32 2192.96
64 06 81
Continued
continued)
Comments
Mult.: K / L = 5 . 9 5 (61An04), a(K)=0.00268 was used for normalization of o t h e r a ( K ) e x p . E'y: 8 9 3 . 7 2 9 i n 80AdZW. l'y: f r o m I ( ~ * ) / I ( 8 9 3 ~ ) = 0 . 0 6 6 5 (73Ne01), Ifl+(893)/lfl+(g.s.)=0.33 6 (86Zh01), ¢ / f l + ( t h e o r y ) a n d assumption that
l(~+ce)(g.s.)+(E +~+)(g.s.)=100~ follow I(893~)=68.44 25 (78VyZX); other: 68% 14 (66Zh01); 68% 6 evaluated f r o m 68Ch30 with recent Ia=15.8Vo 14 in 14gTb a decay. Mult.: a(K)exp=0.00279 64.
E1
ET: f r o m 80AdZW. Mult.: a ( K ) e x p = 0 . 0 0 3 9 9
MI
MI MI+E2
+0.04
1
18 1 3
MI+E2
-0.61
+7-9
Mult.: a(K)exp=0.0029 Mult.: a(K)exp=0.0034 0nly ce(K) observed. Mult.: a(K)exp=0.0021
20
M1
18
MI
24
5.02 16 1.08 13 0,09 5 0.17 6 2 2 1 11 0.26 10 20,9 17 0.11 3 5.76 27 19.8 10 0.19 2 1.36 8 107 5 0,53 3 0.18 3 3.3 4 2 0 3 10 0 54 3
2276.60 2293.03 2329.39
78VyZX
E2
3 3 I 4 1 2 4
2
Decay
6
0.11 0.10 0.03 0.11 0.04 0.18 0.77 6.45
20 30 22
1.0 1000
r
1~3,~ 45PU82_8
SHEETS
Mult.
5 7 2 9
2385.89
145Eu
17#
1.24 0.18 0.09 1.25
2
1452.51 9 14 x1461.90 1532.05 7 1547.21 9 1588.397 26 1614.357 25 1658.44 5 x1779.79 26 1804.21 4 1848.1 3 1857.68 5 1876.64 6 x1950.76 21 1972.74 6 1996.95 6 2110.60 9 x2129.86 35 2133.41 7 2155.30 7 2192.86 7
2276.58 2292.81 2329.37
893.738
from
DATA
8 2 7
on
2.
5. 7. 5.
M1 M2+E3
+0.62
+12-10
Mult.,6:a(K)exp=0.00153 19; ~=+0.48 + 6 - 3 (82De26). EV: f r o m 80AdZW. Mult.: a(K)exp=0.0032 10. Only ce(K) observed. Mult.: a(K)exp=0.00164 24. Mult.: a(K)exp=0.00103 22.
MI+E2
-~.07
6
Mult.: a(K)exp=0.0088 47. Mult.: a(K)exp=0.00087 5. Mult.: a(K)exp=0.O0023
El E1 MI+E2 M1 E2 MI+E2 MI
-1.29
+0.241
Mult.: Mult.: Mult.: Mult.: Mult.: Mult.:
+6-7
11
+0.067
next
pase
30
Mult.: Mult.:
~footnotes
64
at
a(K)exp=0.00045 5. a(K)exp=0.00072 7. a(K)exp=0.00153 44. a(K)exp=0.00118 15, 3,(8). a(K)exp=0.00073 8. a(K)exp=0.00091 5.
Mult.: a(K)exp=0.00033 9. Mult.: a(K)exp=0.0012 2. Mult.: a(K)exp=0.00144 70. Mult.: note that multipolarity(388.95"y) M1,E2 is inconsistent with m u Itipolarity(2192.8q,) MI,E2. These m u l t suggest different parity for 2192.96 level. Mult.: a(K)exp=0.00028 12.
E2 M1,E2 M1,E2
EI+(M2) M1 M1,E2
4.
end
of
a ( K ) e x p = 0 . 0 0 2 2 15. a ( K ) e x p = 0 . 0 0 0 4 6 7.
table)
16435~~8,2
-9
NUCLEAR
7(*~5Sm) E7 t
E(level)
from
DATA
SHEETS
*45Eu [ Decay
17#
14517', 63~u82
78VyZX
Mult.
(continued) Comments
6$
2340.53
14
2340.59
0.35
4
MI+E2
2346.46 2385.22
7
2348.40 2385.89
2.88 0.08
7 2
MI+(E2)
31
2387.32
0.39 0 07 2 01 0 54 0 49 0 32 0 008 0 02
3 1 4 2 2 2
(Mr)
Mult.: note that multipolarity(463.677) E1 is inconsistent with multipolarity(2340.53T) MI+E2. These mult l e a d to d i f f e r e n t parity for 2340.53 level. Mult.: a(K)exp=0.00047 7. Placement o f t h i s T is i n c o n s i s t e n t with placement or mult (M1) o f 949.5297 between 2385.22 a n d 1436 1 / 2 + l e v e l s . Mult.: a(K)exp=0.000037 18.
MI M1 MI+E2 MI+E2
Mult.: Mult.: Mult.: Mult.:
a(K)exp=0.00067 a(K)exp=0.00089 c*(K)exp=0.00086 a(K)exp=0.00059
9. 20. 28. 25.
(MI)
Mult.:
a(K)exp=0.00272
190.
2387.32 x2422.00 2425.80 2481.99 2508.34 2513.37 2551.9 2558.62
8 38 7 10 20 23 2 4O
2425 2481 2508 2513 2551 2558
85 98 73 37 9 89
+18-10
2 1
1" F r o m 78VyZX except where noted otherwise. $ From 7(0) from oriented n u c l e i (82De26). § F r o m 80AdZW. # For absolute intensity p e r 100 d e c a y s , m u l t i p l y x 7 ray not placed in level scheme.
7(145Eu)
+0.81
from
by
0.0684
i42Nd(SLi,3nT)
25.
E=32
MeV
80Ra01,80Ba01
M e a s u r e d : 7, 7 7 , 7 ( 0 ) , e x c i t a t i o n function ( 8 0 R a 0 1 , 8 0 B a 0 1 ) , ce ( 8 0 R a 0 1 ) , T ( t ) ( 8 0 R a 0 1 ) . 1 4 2 N d ( V L i , 4 n T ) E = 3 2 MeV ( 8 0 R a 0 1 ) , m e a s u r e d : 7, 7 7 . All d a t a a r e f r o m 80Ra01 e x c e p t w h e r e noted otherwise. Tt/z(716.0 3 level)=490 ns 30 from 75Fr18, the value measured b y 8 0 R a 0 1 is c o n s i s t e n t T1/2=490 ns. E7
E(level)
Mul t . ~ ' : ~
(22.9) 74.7 146.5 x233.7 239.5 262.5 271.9 329.2 329.4 386.6 399.8
3 3 3 3 3 3 3 3 3 3
2813.5 2836.4 3183.0 2573.6 329.4 716.0 2244.4
30 9 7 51 10 61 16 334 271 34
x517 530.2
3
2813.5
It
2
MI+E2
552.7
3
2836.4
10
2
E2
569.3
3
2813.5
8
2
D
578.6
3
2862.7
29
3
E2
8
1
D
~651.8
2836.4 2911.1? 4122.8
I7
3
10 1 2 3 2 3 4 15 15 2
D Mr+E2
-2.6
MI+E2 E2 MI+E2
Comments
+8-14
-3.49
+41-52
-1.96
+16-18
M1 M2 E1
716.0 793.3
3 3
716.0 3976.3
76 30
4 2
E3 E1
885.2
3
1601.2
44
3
Mi+E2
Continued
6
on
-0.44
next
+8-7
-2.5
+8
page
(footnotes
65
with
79
Mult.: Mult.: Muir.: Mult.: Mult.: Mult.:
A z = - 0 . 1 t 2, A 4 = - 0 . 0 6 2 ( 8 0 B a 0 l ) . A 2 - - 0 . 3 1 1 27, A 4 = + 0 . 0 4 3 35. A 2 = + 0 . 0 8 3. A z = - 0 . 2 5 3 8, A 4 = + 0 . 0 4 4 11. A 2 = + 0 . 3 0 7 5 8 , A 4 = - 0 . 2 4 2 68. A 2 = - 0 . 4 9 8 25, A4=+0.073 29.
Mult.: A2=+0.01 2 (80Ba0t). Mult.: Aa=+0.06 2 (80Ba01). M u l t . : ~ x ( K ) e x p = 0 . O 0 5 3 12; A z = - 0 . 2 5 0 11, A 4 = + 0 . 0 2 9 14. Coin o n l y w i t h 578.67. M u l t . : c ~ ( K ) e x p = 0 . 0 2 2 4; A 2 = - 0 . 9 9 0 4 7 , A4=+0.071 50. M u l t . : c x ( K ) e x p = 0 . 0 0 6 4 56; A 2 = + 0 . 3 5 9 39, A4=-0.074 45. M u l t . : c z ( K ) e x p < 0 . 0 4 ( 8 0 R a 0 1 ) ; A a = - 0 . 1 4 10, A 4 = - 0 . 0 8 16 ( 8 0 B a 0 1 ) . M u l t . : c x ( K ) e x p = 0 . 0 0 8 2; A 2 = + 0 . 2 6 5 13, A 4 = - 0 . 0 7 0 16. M u l t . : A 2 = - 0 . 3 7 4, A 4 = + 0 . 0 3 5. Coin relations found in 80Ra01 d i d n o t a l l o w placement between 1368 a n d 716 l e v e l s , contrary to c o n c l u s i o n o f 80Ba01. Mult.: a(K)exp<0.0022; A4=+0.056 22. Mult.: cx(K)exp=0.0033 A 4 = - 0 . 0 5 8 13. at
end
of
table)
Aa=-0.256 9; A2=
14,
0.239
11,
_O~,
i 63=~U82 45~. - I0
NUCLEAR DATA SHEETS
7(1¢5Eu) E7
from
E(level)
14aNd(6Li,3n~)
I7
E=32
MeV
145~,, 63~u82 - ' 0
80Ra01,80Ba01
(continued) Comments
Mult. T*
968.5
3
2813.5
46
3
972.0
3
2573.6
32
2
E2 E2
x1038.6 1128.6
3 3
1844.6
16 100
2 5
D MI+E2
1499.1
3
1828.5
7
1
D+Q
1568.1 1658.0
3 3
2284.1 2573.6
64 25
3 2
E2 E2
? a(K)exp were normalized to known $ It is a s s u m e d t h a t Q -/'s a r e E2. x -/ r a y n o t p l a c e d i n l e v e l s c h e m e .
+1.30
a(K)(7167)
14SEu Levels f r o m
M u l t . : A 2 = + 0 . 3 0 1 13, A 4 = - 0 . 0 4 1 17. Mult.: a(K)exp=0.0022 5; A z = + 0 . 3 8 2 A ¢ = - 0 . 0 0 4 27. M u l t . : A 2 = - 0 . 1 0 4, A 4 = + 0 . 0 3 5. Mull.: a(K)exp=0.0022 2; A ~ = + 0 . 5 7 5 A4=+0.110 9.. M u l l . : A 2 = - 0 . 6 0 10. E-/: o b s e r v e d only by 60Ba01. M u l t . : A a = + 0 . 2 5 5 9, A ~ = - 0 . 0 2 1 . M u l t . : A 2 = + 0 . 3 6 8 18, A 4 = - 0 . 0 1 4 22.
+15-25
E3, a ( K ) ( 3 2 9 3 , )
M1 a(K)(386.6-/) M2, a ( K ) ( 1 5 6 8 T )
t44Sm(p,p),(p,p'),(pol
p,p')
21,
7,
E2.
77C102
Polarized protons w i t h E = 9 . 0 - 1 2 . 7 MeV ( 7 7 C I 0 2 ) , 8 . 5 - 1 4 MeV ( 8 4 C e 0 1 ) . M e a s u r e d : or(E,0), a n a l y z i n g p o w e r ; DWBA a n a l y s i s , S t u d i e d : IAR ( l e v e l s i n t 4 5 E u ) a n a l o g s o f l o w e r l e v e l s o f 145Sin. D e d u c e d : E, J, F, S.
E(level)
J~
1021 9340 10780 10940
3/27/29/21/2-
1100o
5/2-
11140 11220
9/27/2-
E(level) 11320 11340 11490 11500 11640? 11690 11780
3/25/23/21/2(3/2-) 5/25/2-
~/(145Eu) Measured:
-/, "/7, -/(0), 7 ( t ) , E(level)
E7 22.5
2
2836.2
75.9
2
2912.17
x143.0 146.5
2 2
239.6 262.1 271.8 329.6 386.7 399.6 530.0 553.0 568.7 578.3 716.4 793.8
885.5
E(level)
J~
from
7(E(a))
IV
Mult.
~25
4.36
M1
12 125
3
4134
D D+Q
2
2813.6
110
2 2
2836.2 3183.9
23
385
IO 5 10
2 2 2 3 3 3 3 2 6
329.6 716.3 2244.9 2813.6 2836.2 2813.6 2861.8 716.3 3977.7
955 650 90 60 70 50 50 240 420
20
2
1601.8
125
10
(5/2-) (5/2-) 1/23/2-
E=50
7(E(a))
~425
D+Q
D D
10
Q
15 15 50 80
D
iO
D+Q
D
on
next
pa~e
MeV
79Ha48
(84RuZW). Comments
IT+ce
D Q
I0 lO
Continued
a 23.46
7
7/2-
12160? 12350? 12430 12490
7, 7 ( 6 ) ,
M1
78
12040
144Sm(a,p2n"y)
(79Ha48),
J~
(footnotes
66
Mult.: a from balance of I('/+ce) for 2813.6 level (if no side feeding). Mult.: Aa=-0.23 3 (84RuZW), balance of I('y+ce) f o r 2912 l e v e l . I-/: f r o m 8 4 R u Z W ( r e n o r m a l i z e d to I(386-/)=650 (79Ha48)). M u l t . : A 2 = - 0 . 5 3 10, A a = - 0 . 0 3 I0. I-/: f r o m 7 9 H a 4 8 ; o t h e r : 98 7 ( 8 4 R u Z W ) . M u l t . : A a = - 0 . 3 7 10, A 4 = - 0 . 0 2 10 ( 7 9 H a 4 8 ) ; o t h e r : A a = - 0 . 3 0 8, A 4 = + 0 . 0 3 10 ( 8 4 R u Z W ) . M u l t . : A a = - 0 . 2 8 4, A 4 = - 0 . 0 1 6. M u l L : A 2 = + 0 . 4 2 6, A a = - 0 . 1 0 10. M u l t . : A 2 = - 0 . 7 6 6, A 4 = - 0 . 0 1 6 ( 7 9 H a 4 8 ) ; o t h e r : A ~ = - 0 . 5 0 4, A 4 = + 0 . 0 9 6 ( 8 4 R u Z W ) . M u l t . : A z = + 0 . 0 0 4, A 4 = - 0 . 0 4 6. M u l t . : A 2 = + 0 . 0 0 , A 4 = + 0 . 0 5 6. M u l l . : A a = - 0 . 3 3 6, A 4 = - 0 . 0 7 8. M u l t . : A 2 = - 0 . 7 0 8, A 4 = + 0 . 1 4 8. M u l t . : A 2 = + 0 . 2 2 6, A 4 = - 0 . 1 4 8. M u l l . : A 2 = - 0 . 2 9 6, A 4 = - 0 . 0 1 8. M u l t . : A a = - 0 . 0 1 10, A4=+0.08 10. M u l l . : A 2 = + 0 . O 0 6, A4=+0.03 8, M u l t . : A ~ = - 0 . 3 7 6, A 4 = + 0 , 0 1 6. I-/: n o t v e r y r e l i a b l e b e c a u s e o f a d m i x t u r e of ~*~Gd 7 - l i n e s . M u l t . : A 2 = - 0 . 2 0 6, A 4 = - 0 . 1 0 6. at
end
of
table)
145~. 6 3 ~ u 8 2 - - Ii
NUCLEAR
T(145Eu) E~
Z(level)
968.6 972.1 1029.4 x1046 5 1128.8 x1472.0 1567.2 1857.7
3 3 3
2813.6 2574.0 5154
22 I
1845,1
2
2283.5 2574.0
3
x T ray
not
placed
in
from
level
145Eu
J~
0.0 329 3 716 4 809 4 1042 5 1599 8 1757 8 1843 8 2 1 0 8 10 2 4 8 0 12 2480 12 5 9 0 0 100
1" A d o p t e d
5/2+ 7/2+ 11/21/2+ 3/2+ (7/2)+ 3/2+ (5/2)+ 3/2+ 1/2+ 3/2+ (9/2)-
Q
20 15 5 25
E(level)
15
Q D D Q+D
Mult,: Mult.: Mult.: Mult.: Mult.:
A 2 = + 0 . 2 6 6. A 4 = - 0 . 0 2 . A z = + 0 , 3 0 6, A 4 = - 0 , 1 6 10, A 2 = - 1 , 1 4 20, A 4 = + 0 . 3 5 20. A 2 = - 0 . 2 7 20, A 4 = + 0 , 2 1 20. A2=+0.51 6, A 4 = + 0 . I 5 8,
30 10
Q Q
Mult.: Mult.:
A z = + 0 . 2 5 6, A 4 = - 0 . 0 5 A z = + 0 , 3 1 8, A a = + 0 . 0 2
Levels from
L
144Sm(3He,d)
2 4 5 0 2 4 2 2 2 0
MeV ( 8 2 G a 1 2 ) , 67.2
MeV
70Ne04,71Wi04
MeV ( 8 4 R u Z W ) .
Comments
33 17 82 0 98 1 02 0 02 0 02 0 10 0.04 0.02 0.04 0.97
2
(5)
E(level),JTr,C2S: f r o m 82Ga12. J~r: L = ( 5 ) , s h e l l m o d e l .
Levels from
JTr 1"
L
cZs
0.97
7600
(13/2)+
6
0.94
L and
shell
E=80
MeV
82Ga12,84Ga16
Comments
E ( l e v e l ) : F=1,23 MeV 15. L: ~20% o f L=3 s t a t e s c a n n o t be e x c l u d e d . E ( l e v e l ) : F = 4 . 0 0 MeV 45. L: L=5 ( a n d c z s = 2 . 3 6 ) c a n n o t b e e x c l u d e d .
model.
145Eu Measured:
144Sm(a,t)
a(E,O), DWBA a n a l y s i s .
5
1840
8, 10.
0 0 0
(9/2)-
0.0 329 716 808 t042 1760
240
E=40.33
C2S
0.0 5 9 0 0 ,O0
E(level)
(continued)
values.
Measured:
T From
79Ha48
scheme.
1452u
400
E=50 MeV
14~Eu82-II
Comments
Other measurements: E=33 MeV (82Sc25), M e a s u r e d : G(E,0), DWBA a n a l y s i s . E(level)
SHEETS
Mult.
IT 185 115 50 75 95 ~10 110 115
144Sm(a,p2nT)
DATA
Levels from
144Sm(TLi,6He) E = 5 2
cr(E,O), DWBA a n a l y s i s . j~t
5/2+ 7/2+ tl/21/2+ 3/2+ 3/2+ $
(5/a)+t
L 2
4 5 0 2 2
2
~ ' F r o m a(O) a t s m a l l :[:Adopted v a l u e s .
CZS
O 19 0 12 0 45 0609
3 3 7
0 66 9 0 014 6 0.05 13
67
angles.
MeV
81C101
NUCLEAR
145~464~81_1
145Gd
sr;
Q(fl-)=-6750 E(level)
S(n)=9070
SY;
Q(a)=4590
Adopted
SHEETS
i~Gdsl-I
Levels
85Wa02.
Tl/ 2
J~
0.0
50
DATA
1/2+
23.0
min
ns
27.3
I
3/2+
11.5
748.7
1
11/2-
85
1015.1 1272.9 1415.3
5/2+ 7/27/2+
<0.3
ns
1498.0 1524.7 1666.3 1683.9 1809.9 2181.8
5/2+ (5/2,7/2)712(-) 9/29/2(912-)
<0.3
ns
2195.6 2200.1
13/2+
20.4
ns
Comments 4
%t+%p+=10d. Ti/g. f r o m 82Fi01; others: 23.9 rain I (77Ho18), 21.8 rain 6 (71Ep01), 23 rain I (704r04), 22.9 rain I (68Ke14). J1r: a t o m i c b e a m (76Fu06), log ft=5.75 to 1758 level in 145Eu w i t h positive parity (L=2 in (3He,d)). TI/2: f r o m IT d e c a y (75Fi02). J~r: 7 to 1/2+ is MI+E2. % I T = 9 4 . 3 5; %~+%~+=5.7 5. Tt/2: f r o m IT d e c a y : u n w e i g h t e d a v e r a g e : 85 s 3 ( 7 0 E p 0 2 ) , 85 s 7 ( 8 9 J a 0 2 ) , 78 s 8 ( 7 0 8 e Z P ) , 92 s 4 ( 7 4 K 0 2 9 ) , J~r: 7 to 3 / 2 + is M4. J1r: 7 to 3 / 2 + is A J = I MI+E2, 7 f r o m higher spin levels. J~r: ~ to 5 / 2 + is El, 7 to 11/2- is E2. Ti/z: f r o m (3He,2nT) (82Pa04). J~r: V to 3 / 2 + is A J = 2 E2. J1r: 7 to 3 / 2 + is MI+E2, V to 7 / 2 is A J = l D. J~r: T to 5 / 2 + is El, V t o 7 / 2 + . J~r: 7 to 7 / 2 is A J = 0 D+Q. J~r: 7 to 1 1 / 2 - is A J = I MI+E2, "/ to 7 / 2 + is El. JTr: T to 7 / 2 is A J = I MI+E2, y i e l d . J~r: -y to 1 1 / 2 - , 7 / 2 with comparable I7, log f t = 5 . 3 v i a ( 1 1 / 2 - ) parent. T1/z: f r o m ( 3 H e , 2 n T ) ( 8 2 P a 0 4 ) . J~r: ")/ to 1 1 / 2 - is A J = 0 MI+E2. T1/2: f r o m ( 3 H e , 2 n T ) ( 8 2 P a 0 4 ) . J ~ : 7 to 7 / 2 is E3, 7 t o 1 1 / 2 - i n c l u d e El c o m p o n e n t . J1r: 7 to 9 / 2 is A J = l MI+E2, ~ to 7 / 2 is A J = 2 E2. J ~ : 7 to 1 1 / 2 - is A J = t El, y i e l d . J ~ : 7 to 9 / 2 is AJ = 0 D+Q. J~r: 7 to 1 3 / 2 + is A J=1 MI+E2, V f r o m 1 7 / 2 + .
3
s 3
11/216
2258.5 2301.6 2382.3 2411.4 2411.8 2432.4
11/213/2+
2442.7 2472.4 2784.1 2823.2 2872.6 2886.0 2974.8 2987.3 3176.2 3195.1 3207.3 3285.1 3354,2 3357,1 3458.4 3469,6 3511.7 3573.6 3585? 3603?
13/2-
Ti/2: f r o m (3He,2nT) (82Pa04). JTr: -y to 11/2- is A J=3 E3, 3, to 15/2+. Jvr: ~ to 11/2- is A J = l MI+E2.
(II/2+,13/2+) 15/2+
J1r: 3, to 11/2- m a y be El+M2, 7 to 13/2-. J1r: 7 to 13/2+ is A J = I MI+E2, yield.
17/2+
JTr: 7 to 15/2+
is A J = I
19/2+
21/2+
Jw: 7 to 17/2+ J1r: ~ to 19/2+
is A J = I MI+E2, yield. is A J=l D, ~ to 17/2+, yield.
(19/2)
J~r: T to 1 7 / 2
(912-) 15/2+ 0.37
17/2+
ns
15
145Gd
E(level) 27.3 748.7 1015.1 1272.9
IV
E7 27.3 721.8 987.8 1015.1 257.8 524.1
1 1
100 100 100 6 9 , 4 31 100 5 30 2
Adopted
Mult. MI+E2 M4 MI+E2 E2 El E2
7
is A J = l
a 2
+0.20
5
20 3 0,149
0.024 0.012
Continued
on
68
yield.
D.
radiations
6 0.09
MI+E2,
next
pa~e
Comments
B(M1)(W.u.)=0.0044 7; B(E2)(W.u.)=27 B(M4)(W.u.)=t.S5 7.
13.
145hA 64,au81
_9 ~
145Gd A d o p t e d E(level) 1415.3 1498.0 1524.7 1666.3
1683.9 1809.9 2181.8
2195.6
1388 225 1471 109 509 141 168 393 651 268 935 537 371 908 i432 1446 927.2 i451.3
2258.5
448 985 1552 200 572 698 1109 109 211 20
2411.4 2411.8 2432.4
2442.7 2472.4 2784.1
2823.2 2872.6 2886.0 2974.8
2987.3 3176.2 3195.1 3207.3
3285.1 3354.2 3357.1 3458.4 3460.6 3511.7 3573.6 3585? 3603?
I7
E7
2200.1
2301.6 2382.3
145hA -9 64,.~ ~ 8 1
NUCLEAR DATA S H E E T S
0 1 0 5 8 6 3 9 7 6 1 0 9 9 5 8
100 I0 100 8 100 23 100 45 45 63 100 100 15 76 100 100
4 10 4 40 9 18 9 23 13 10
6
Mult.
(continued) a
E1 D D+Q El MI+E2 MI+E2
0.021 +0.8
2
0.018
3 8 9
ET: f r o m **STb t decay. B(M 1 ) ( W . u . ) > 1.2~ 10-~; B(E2)(W.u.)>O.O033. B(E3)(W.u.)=52 7. M u i r . : 30% E 1 + 4 0 % M 2 + 3 0 % E3 f r o m a(K)exp and 7(6) in (3He,2n7) (82Pa04). B(E1)(W.u.)=6.* lO-*°; B(E3)(W.u.)=I.3. B(M2)(W.u.)=0.0018;
MI+E2 8 4
E3 EI+M2+E3
40 100 100 51 100 39 100 100 100 62
7 7
Mr+E2 E2 E1
1683.6 247.1 170.8 341.4 2035.3
10O 100 1O0 17 100
8
623 1 1062 7 474 6 190 7 532 1 563 4 544 6 201 4 290 2 220 3 309 1 775 5 795 9 77 8 379 4 149 8 024 7 101 3 1026 112.5 335,5 115.2 378.3 395,7
100 lOO 100 100 32 32 100 100 80 100 57 19 100 100 100 30 1O0 100 40 100 100 100 100 100
5 14 4 14
3
+0.3
1
0.033
D+Q
MI+E2 Mt+(E2) if MI+E2
<0.7
E3 MI+E2
+0.1
30
1
Mult.: (E3) (82Pa04) or El+M2 from a(K)exp and 7(6). MI+E2
30 20 43 29 10 6
3 6 20 20
5: f r o m RUL. M u l t . : a f o r d=O. 18, B(E3)(W.u.)=42
0.164
6 9
20 8 8
Comments
B(E2)(W.u,)>O.O081.
E2 D MI+E2
100 56
6 6 8 6 4 0 4 8 7 7
7 radiations
+0.8
3
0.012
E1 MI+(E2 MI+(E2 Mt+(E2 M1 D MI+(E2 D
Mr+E2
0.021
-0.13
4
D M1 D E2
69
(83Ba10)
145rZA
64~,.81
_q
NUCLEAR
~
T(145Eu) f r o m
DATA
SHEETS
145~,4 _q 64,~u81
145Gd ~ Decay (23 m i n )
82Fi01
Measured: T, 7 % XT, T T + , e / f l +, Q(/~-) ( 8 2 F i 0 1 ) , T, T T , T T + ( 7 1 E p 0 t ) T, Q ( f l - ) ( 7 7 H o 1 8 ) . Other measurements: 75Fi04, 75Fi05, 708eZP, 70Ne04, 70Ar04, 68Ke14, 590123, 59Gr10. Decay scheme is from 82Fi01. IT normalization: EIT(E.s.)=I00. Eft+=2500 200 (70Ar04), 2 5 0 0 150 ( 5 9 0 1 2 3 ) , 2 4 0 0 2 0 0 ( 5 9 G r / 0 ) ; Q(E)=5070 60 (82Fi01), 5000 (77Ho18). c/fl+(1041.71 level)=0.91 14. [/fl+(1758.03 level)=t.93 20. e/fl+(1761,32 level)=2.9 13, t/fl+(1880.62 level)=2.14 20. c/fl+(2048.8 level)=3.8 19. c/p+(2114.3 level)=13 6. 14. E/B+(2494.88 level)=5.2 E/fl+(2642.2 level)=8.0 18. E7 287.2 20 305.5 30 310.1 30 329.9 1 514.07 20 589.0 20 646 0 20 716 2 2 719 9 1 7 2 2 O? 2 0 751 0 20 754 6 2 808 4 1 8 1 8 0 20 838 8 1 854 1 20 933 7 20 949 7 1 952 961 973 984 992
1013 1014 1041 1072 1082 1129 1181 1215 1220 1234 1366 1380 1381 1416 1421 1427 1430 1436 1441 1459 1461 1462 1466 1467 1513 1513.4 1561.9 1567.2 1576.0 1593.8
6 3 O? 2 0 8 20 O? 2 0 5 20 9 20
2 8
2 1
3
1 20 1
4 8
5 0 3 4 1? 1 0 3 7 9 8 3 5 6 6 9 6? 6 2
IT 1"
E(level)
1 20 20 20 20 1 20 20 1 20 4 2 20 3 1 20 20 20 20 2 20 I 20 1
2048.8 2416.8 2422.3 329.92 2114.3 2048,8 2562.5 1758.03 1761.32 2321,72 2318.68 2321.72 808.33 2699.7 1880.62 2422,3 2779 9 1758 03 1761 32 2562 5 2819 1 2585 7 2838 7 2859
2
2779 1041 1880
9 71 62 7 7 14 8
2838
1459 3062 2971 2027 2042 3768 2188 2422 3879 2463 1758 1761 1765 3768 1459 3062 3228 3547 3931 3628 2321
8
9 9 4 3 8 5 03 32 8
9 7 14 7 t? 7 3 72
3888
9
1567 3176 4275 2402
12 3
9 25
0 0 0 2 0 0 0 0 0 0
E7
007 007 011 7 2 007 015 019 071 105 020
1 2 2 2 3 4 6 10 6
0
015
3
0 8 0
034 6 5 120
6
1598 1599 1600 1613 1620 1648 1658 1678 1686 1696,4
13
0302
0 0 0
034 5 013 3 68 4
1 50 9 0 032 5 0 010 4 0 032 5 0 010 4 0 010 3
0 071 996 282 0 029 0 024 0 074 0 046 0 016 0 041
13 7 4 7
O. 0 8 2
11
1891.0
6
1915.5 1934.87 1988.5 1999.0 2021.7 2027,8 2040.9 2042.9 2049.1 2054.1 2056,7
5 3
0.07 2 0 . 054 8 0,008 4
8064.0 2073.9 2077.9 2079.1 2083.7 2083,9 2087.2 2091.47 2100.4 2110.6
0 . 042 6 0.12 3 0.061 12 0.30 2 0.016 7 0.081 9 0.28 2 0.025 5 0.029 8
0.007 0.017
2144.2?
3
2149.0 2149.6 2157.9 2158.6 2163.4 2175.8 2181.2? 2187.8
5
0.35
2
0.014 0.97
6
6
0. 025 0,019 0 , 176
Continued
6 20 0 20 1 1 9 1 3 1 9 20 0 1 6 2 6 I 2
1719,1 1750.17 1755.0 1757.9 1782.9 1784,4 1788,5 1796.1 1844.07 1845,4 1858.3 1872.6 1880.6
6 6 11
on
next
page
I~t
E(level) 2642 3199 1600 2422 3220 3705 2699 2487 2494 2504
41
2
2048
8
20 20 1 20 1 20 20 20 1 20 20 I 2 2 20 ! 20 20 1 20 I 4 1 20 20 20 20 1 1 20 20 2 1 1 3 20 1 20 20 1 20 1 3
2079
1
4281
8 03 6
1758 4308
2114 4709 3561 4308 1845 3738
2699 1915
5
2203 1880
0 0 I 0
0 0
095 11 039 10 7 6 10 1 3 0 11 I0 6
024
8
0 38 2 0 052 8 0 1 0 5 12 0.043 7
88
3 9 9 6 32 9 4 62 7
1.05 7 0.033 5 0.046 11 34.2 20 0.036 10 0.40 3 0.075 10 0,007 3 0.007 3 0.53 4 0.10 2 11 0.109 32.6 19
2742
7
0.43 0.19 0.048
2318
68
0.090
4047 3062 2027 3920 2042 2048 2054 3939 3944 3920 4281 2079 4547 3962 3847 4410 4502 2918 4258.6 3747.2 2149.6 2487.2 4003.9 2971.8 4700.3 4502.8 2188.4
9 14
0,057 0.105
8
0.148
7 9
0.07 0.049 0.15
2
0,080 0.08 0.09
2 2
(footnotes
70
2 1 26 3 6 4 7 2
8
1 3 6 7
2 2
9 10 5 8 11
2 10 11
0.018 0.066
8
1 2 9 9 1 8 9
0.11 0.099
0.027 0.076 0.049 0.205 0.138
0.037 0.070 0.130 0.032 0.022 0.119 0.032
at
end
7 14 2 8
7 14 10 13 13 5 15 9 4
0.105
7 12 10 9
0.018
8
of
table)
70
NUCLEAR
t45nn 4 64'.~ u 81 -
7(145Eu) f r o m
E7 2192 0 2195 2 2202 0 2203 0 2203 4 2227 0 2232 6 2239,7 2253.9 2276.17 2283.5 2292.0 2293.5 2302.0 2313.07 2318.9 2322.0 2327.3 2349.0 2360.97 2387.3? 2390.9 2396.5 2409.9 2413.3 2416.8 2422.9 2425.6 2429.6 2451.9 2453.0? 2458.9 2463.3 2469.6 2487.8 2494.8 2504.3 2508.0 2509.2 2521.5 2539.0 2544.9 2554 8 2562 7 2573 9 2585 7 2589 2 2591 3 2597 3? 2603 2 2606 I 2609 6 2622 1 2624 7? 2633 1 2642 2 2662 7? 2670 0 2670 79 2675 2 2677 9 2691 0 2697 2 2700 9 2708 5 2714 4 2738 7 2742 7
EIlevel ) 20 2 20 20 1 1 2 3 2 6 3 4 2 20 20 1 4 7 1 4 2 2 4 20 2 1 l 1 1 2 20 1 8 1 3 1 I 20 20 20 20 7 7 7 1 1 2 20 2 2 2 2 1 2 20 1 2 20 2 3 2 9 9 9 1 5 i 1
3001.5 2525.2 4281.8 4390.7 2203.4 4275.9 2562.5 3280.9 3062.14 4390.7 4044.5 3101.1 4051.7 4184.0 2642.2 2318.68 2321.72 2327.3 2340.0 4410.1 4436.1 3199.1 4275.9 3451.6 4258.6 2416.8 4184,0 4184.0 3238.0 4051.7 4502.8 3267.2 2463.5 4069,9 2487.2 2494.88 2504.41 4390.7 4275.9 4281.8 4308,6 2544.9 4436.1 2562.5 4454.44 2585.7 3397,6 4472.8 4645,6 3411.6 2606.1 4454,44 4502,8 4390.7 3675.7 2642,2 4424.0? 4428.3 4432.0? 4275,9 4436,1 4258.6 4454.44 2699.7 4308.6 4281.8 4496.6 2742.7
8 10 15 13 3 13 10 7 9 2 3 3 3 5 8 4 14 2 6 5 13 8 6 5 2 2 8 13 8 3 6 5 6 13 7 8 7 ? 7
0.018 0,04 0.010 0.054 0.061 0.043 0.102 0.33 0.048 0.006 0,039 0.052 0.127 0.051 0.052 0,0t7 0.033 2.09 0.062 0.039 0.066 0.064 0.085 0.021 0 08 0 021 0 064 0 079 0 068 0 114
2 5 9 12 7 8 2 13 3 4 11 9 8 11 6 4 12 9 9 6 10 10 4 2 4 6 6 5 7
Continued
SHEETS
145Gd c Decay (23 m i n ) B7
E(level)
2754 1 1 2764 8 1 2779 9 1 2789 5 2 2797 4 2 2800 7 2 2804 9 2 2809.9 2 2819.8 2 2828.2 1 2831.0 20 2836.0 2 2838.7 I 2842.9 2 2853.2 2 2860.9 2 2867.4 2 2884.1 2 2087.9 6 2898.9 2 2902.3 2 2907.2 7 2918.6 2 2947.1 3 2947.2 20 2955.4 2 2971.9 4 2980.1? 3 2988.1? 4 2992,9? 3 3001.5 2 3009.?? 2 3034,0 3 3039,5 2 3053.0 20 3063.1 2 3079 0 2 3092 0 2 3101 2 2 3114 2 2 3141 3? ? 3176 3 2 3177 4? 20 3188 O? 2 0 3198 3? 4 3217.2? 6 3220,7 3 3239 4? 7 3243 2? 7 3253 6? 3 3261 1 2 3 2 6 6 0 20 3280 7 2 3290 4 4 3299 2 4 3312 5 2 3324.9 20 3343 5 3 3348 4 3 3376 9 7 3389 1? 4 3394 5 3 3408 3? 20 3413 1 3 3454 3 3 3460 9 3 3473 9 5 3505 3 4
2754.1 4645.6 2779.9 4547.2 4555.4 4566.4 4566.4 4410,1 3628.3 4428.3 4709,9 4436.1 2838.7 4410,1 4454.44 4428.3 3675.7 4845,6 4645.6 3705.4 4663.8 3949.8 2918,9 4547.2 3988.9 4555.4 2971,8 4547.2 2988.17 4593,0 3001,5 4051.7 4634.6 3847.9 3383.0 3062.14 3408.9 3092.0 3101,1 3444,2 3949,8 3176.3 3507.4? 3520.0? 3199.1 4258.6 3220.6 3238.0 4051.7 3253.6? 3261,1 3267.2 3280,9 3620.2 3628,3 3312.5 4131.4 3343,5 4156.7 4184.0 3389.17 4436,1 3409.9 4454.44 4496.6 4502.8 4281.8 4547.2
17t
0.034 0.099 0.063 0.052 0.45 0,140 0.035 0.016 0,078 0.006 0.026 0.05 0.10 0.015 0.056 0.052 0.118 0.04 0.050 0,022 0.054 0.032 0.035 0.018 0.34 0.33 0.074 0.192 0.091 0.15 0,019 0.035 0.042 0.080 0,036 1.33 0.099 0.023
DATA
on
next
pa~e
(footnotes
71
145nn 64~u81
82FiOl ( c o n t i n u e d ) I71 0 043 3 0 072 5 0 041 5 0 069 8 0 037 6 0 0 3 9 10 0 062 9 0,034 6 0.021 2 0,087 6 0.024 8 0.20 2 0,34 2 0.060 5 0.048 5 0.027 4 0.084 8 0,109 9 0.045 4 0.083 5 0,029 3 0,035 8 0.052 4 0,098 10 0.064 9 0.041 9 0.021 5 0.028 7 0,023 3 0,026 6 0.055 6 0.051 5 0.088 3 0.059 9 0.18 3 0.068 5 0.041 3 0.219 13 0.160 10 0.051 4 0,031 3 0,054 5 0.07 2 0.08 2 0.017 3 0.014 2 0.035 2 0.027 4 0.019 3 0.027 3 0.094 6 0.12 2 0.053 5 0.015 4 0.007 3 0,051 4 0.006 2 0.048 3 0 023 3 0 023 5 0 022 4 0 018 2 0 023 3 0 059 3 0 015 5 0 069 8 O 1 7 9 10 0 031 4 at
end
of
table)
_A
-~
145n,q 64~81
_~~
NUCLEAR
7(14~Eu) f r o m
3512.8 3520.9? 3525.6? 3547.4? 3550.7 3556.5? 3578.4? 3582.9 3598.6? 3601.5 3604.2 3619.8 3623.1 3626.2 3632.7 3643.8 3645.8 3656.2 3664.1 3684.3 3687.7 3694.3 3705.8 3738.7? 3746.9 3757.7 3769.0 3785.4 3801.3 3826.8? 3848.0? 3888.87 3891.7 3901.7 3920,87 3928.8 3931.8? 3940.2? 3950.7? 3953.3 3962.9 t
For
3 7 7 5 3 3 4 3 3 3 3 7 7 9 3 3 3 7 4 3 3 3 3 3 3 4 4 6 3 4 4 4 4 4
5 4 6 7 7 20 5
absolute
4555 3520 3525 3547 4593 4364 3578 4390 3598 4410 4645 3620 4663 4436 3962 3643 4454 4463 4472 4014 4496 4502.8 3705.4 4547.2 3747.2 4566.4 3768.9 4593.0 4131.4 4634,6 3847.9 3888.9 4700.3 4709.9 3920.7 4258,6 3931,7 3939.3 3949.8 4281.8 3962.9
4 O? 6? 1? 0 8 4? 7 6? I 6 2 8 I 9 8 44 8 8 1 6
intensity
c
I?t
E(level)
ET
'45Cd
per
10 1 1 4 5 4 2 3 3
9 3
0.010
4
0.025 0,015 0,064 0.076 0.004 0,013 0.117 0.135 0.046 0.032 0.024 0.035 0.009 0 016 0 014 0 077 0 009 0 010 0 022 0 019 0 028 0 009 0 049 0 007 0 007 0 009 0 015 0 021
3 2 8 6 2 2 8 9 4 2 2 8
3977.9 4012,3 4021,6 4023.8 4043.8 4051.2 4068.9 4081.27 4107.0 4155.0? 4184.6 4188 2 4217 2 4258 4 4275 9 4281 7 4307 3 4316 3 4364 5 4370 7? 4379 9 4390 ? 4409 8 4427 8 4453 8 4463 1 4473 3? 4502 6 4517 5? 4536 8 4547 1 4554 5 6 4566 4 5 7 7 8? 4593 4? 4634 9? 4645 7 4656 2 4663 8 4685 3 4699 6
4
I 5 2 7 2 1 3 3 3 2 3 2 2 2 3 4
decays,
multiply
fl+,c Data M e a s u r e d : TO t h e r : 70SeZP. Branching: from I(3867)/I(7217)=0,048 Evaluator assigned uncertainty of
from
by
5 9 4 9 4 9 6 4 5 15
4 4 4 9 9 9 4 4 5 6 7 5 5 5 7 6
5 8
5 5 5 6 5 9 6 9 5 9 9 6 9
329.5 386.6 (716)
$
3 3
E(level)
Mult.
329.5 716,1 716. I
M2 E3
Adopted values. For absolute intensity
per
?
a
100
E(level)
i?t
4308,6 4014.1 4021.6 4023.8 4044.5 4051.7 4069,9 4410.1 4436.1 4156.7 4184.0 4517.9 4547,2 4258.6 4275.9 4281.8 4308.6 4645.6 4364.8 4700.3 4709.9 4390.7 4410.1 4428.3 4454.44 4463.8 4472.8 4502.8 4517.9 4536.9 4547.2 4555.4 4566.4 4577.9? 4593.0 4634.6 4645.6 4656,3 4663.8 4685.4 4700,3
0.007 0.033 0 023 0 024 0 013 0 015 0 027 0 008 0 006 0 022 0 025 0 013 0 037 0 082 0 070 0 078 0 041 0 031 0 006 0 012 0 022 0 033 0 013 0 027 0 002 O 007 0 032 0 008 0 019 0 015 0 017 0 019 0 004 0 004 0 005 0 046 0 008 0 005 0 008 0 002
decays,
multiply
o.o41 5 I
I(386T)/I(7167)=3,85 ratios.
14sOd ~ Decay (85 s) I(386T)/I(7167)=3,85 ratios.
I T + c e :~
0.1678 0. 01341
82Fi01 ( c o n t i n u e d )
14~Gd ~ Decay (85 s)
Branching: from I(386~,)/I(7217)=0.048 (70Ep02) and Evaluator assigned uncertainty o f 10% t o p h o t o n E7
100 26
by
145F'_rl 64,., u 8 1 - - ~r-,
3 3 4 2 2 3 1 1 2 3 2 4 9 7 5 3 2 1 2 2 2 1 4 1 1 5 1 2 1 1 2 I I I 3 1 1 1 1
1.0.
(70Ep02) and 10% to p h o t o n
7(i45Eu) f r o m
SHEETS
Decay (23 m i n ) E7
0.054 0.009 0.010 0.025 0,057 0,017 0,013 0.041 0.026 0.051 O. 1 4 1 0.030
100
DATA
70Ep02
in
(SLi.3nT)
(80RaOl).
70Ep02 in
(SLi,3nT)
(80Ra0l).
Comments
I7+ce:
0.057
72
5,
from
I7(3867)/I3'(7167)
in
(eLi,3nT)
(80Ra01).
145F'_,4 --6 64,J,-~ 81
t45Gd L e v e l s M e a s u r e d : 7, 7 7 , XT, 7 7 ( t ) . Other measurements: 70SeZP, E(level) 0.0 27.3 748.7
J~
11.5 85 s
Branching: E7
see
1"A d o p t e d
ns 3
on
Mult.
5.47
MI+E2
27,3
721.4
4
748.7
absolute
100
intensity
per
~ 0.090
multiply
Levels
0
0
3 8 1 9 3 0 7 3 9 9 8 6 1 5 6 3 4 8
by
$
7/2+
<0.3
ns
<0.3
ns
20.4
ns
(5/2,712)7/2(-) 9/29/2tl/213/2+
0.820
[6
11/213/2+ (9/2-) 15/2+
7 (70Ep02).
5.
E=24
MeV
83Ba10
(82Pa04).
2432.4 2442.7 2472.4 2784.1 2823.2 2872.0 2886.0 2974.8 2987.3 3176.2 3195.1 3207.3 3285.1 3354.2 3357.1 3458.4 3469.6 3511.7 3573.6
5/2+
(9/2-)
M u l t . , 6 : f r o m a ( L ) e x p = 1 6 . 9 14. IT: f r o m I ( T + c e ) b a l a n c e . M u l t . : a ( K ) e x p = 0 . 1 2 2, K / L = 5 . 4 ET: f r o m 7 0 2 p 0 2 .
3
E(level)
TI / ~ $
1/2+ 3/2+ 11/2512+ 7/2-
!
20
Comments
144Sm(3He,2nT)
from
75FiO2,70Ep02
a 22
E = 1 8 - 2 6 MeV (83Ba10); 1 2 . 6 - 2 7 MeV ( 8 2 P a 0 4 ) . M e a s u r e d : "y, T3', 7 ( 0 ) , ce ( 8 3 B a 1 0 , 8 2 P a 0 4 ) , T ( t )
27 748 1015 1272 1415 1498 1524 1666 1683 1809 2181 2195 2200 2258 2301 2382 2411 2411
s)
0.1490
100 d e c a y s ,
J~
(85
(85 s).
M4
145Gd
E(level)
75FiO2,70Ep02
values.
145Gd IT D e c a y
145Gd ¢ d e c a y
17 t
1
For
comment
(85 s)
3
E(level)
27.3
'45Gd IT Decay
164 4 5 h~A8 1 _ a
69Ja02.
TI/~
1/2+ 3/2+ 11/2-
I 4
from
~(145Gd) f r o m
t
DATA S H E E T S
NUCLEAR
Jv~
TI/~$
17/2+ 13/2-
0.37
ns
15
(11/2+,13/2+)
15/2+
17/2+
19/2+ 21/2+
Adopted values. From 82Pa04.
7(145Gd)
ET t
E(level)
20.7§
2
27.3 § 77.8§ 101.3
I
109.5 109.8
I T 1"
2432.4 27.3 3285.1 3458.4
40 2 1 2 5 15 52 20 4
1524.7 2411.4
4 105
2 8
Continued
from
144Sm(3He,2nT)
E=24
MeV
83Ba10
Mul t . ~'$
D+Q
on n e x t
Comments
M u l t . : A z = - 0 . 2 1 7, A 4 = + 0 . 0 5 A4=-0.04 3 (82Pa04).
8; o t h e r :
A2=-0.21
2,
M u l t . : A2= 0.19 2, A 4 = + 0 . 0 6 A¢=-0.01 2 (82Pa04).
2; o t h e r :
Az=-0.21
1,
page
(footnotes
73
at
end
of
table)
145~_A -7 6 4 " ' u- 81
NUCLEAR
7(*4SGd) f r o m E(level)
v.Tt
112.5 115.2 141 . 6 149.8 168.3
3489.8 3573.6
171
M u l t , t$
1666.3
2 4 2 4 4
170.8 § 8 190.7
2472.4 2974.8
4 25
[ 5
201.4 211,7 220.3 225.1 247.1
3176.2 2411.8 3195.1 1498.0 2442.7
10 15 7 5 42
3 5 3 2 4
D MI+(E2 D D MI+E2
257.8
1272.9
176
8
E1
268.6
1683.9
25
5
EI
290.2 309.1 335.5§ 341.4 371.9 379,4 393.9 448.6
3176.2 3195 3511 2784 2181 3354 1666 2258
8
2
MI+(E2
474.6
1666.3
1 7 1 8 2 3 5
Comments
M u l t , : a ( K ) e x p = 0 . 3 3 9, A ~ = - 0 . 3 1 I, A4=+0.01 2 ( 8 2 P a 0 4 ) ; o t h e r : A 2 = - 0 , 2 4 4, A 4 = + 0 . 0 3 5 (83Ba10). M u l t , : A z = - 0 . 2 I, M u l t . : A 2 = - 0 . 3 6 9, A 4 = - 0 . 0 3 12. M u l t , : A z = - 0 . 2 7 11, A ~ = - 0 . 0 6 14. Mult.: A2=-I.04, M u l t . : a ( K ) e x p = 0 . 1 3 3, A 2 = - 0 , 0 1 I, A 4 = - 0 , 0 1 2; o t h e r : a ( K ) e x p = 0 , 1 5 3, A 2 = - 0 . 0 0 2, A4=-0.02 2 (82Pa04). M u l t , : a ( K ) e x p = 0 , 0 2 1 5, A 2 = - 0 , 1 2 3, A4=+0.01 I; o t h e r : a(K)exp=O,Ol9 3, A 2 = - 0 , 1 3 3 4, A 4 = - 0 , 0 1 1 6 ( 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = 0 . 0 2 5 9, A 2 = - 0 , 1 2 3, A 4 = + 0 . 0 0 5; o t h e r : a ( K ) e x p = 0 . 0 1 7 5, A 2 = - 0 . 2 0 3, A 4 = - 0 . 1 0 5 ( 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = 0 . 0 7 2,
+0.1
1
42 ET: f r o m
D+Q MI+E2
2886.0
15
3
E1
509.8 524.1
1524,7 1272.9
50 52
20 4
El E2
532.1 537.0
2974.8 1809.9
8 2 78 6
Mt+(E2 Mi+E2
544.6 563.4
2987.3 2974.8
10 3 8 2
MI MI+(E2
572.4 623.1 651.7 721.5
2382.3 2823.2 1666.3 748.8
7 2 28 4 10 5 I000
775.5§ 795,9
3207.3 3207.3
6 3 32 2
+0.3
!
+0.8
2
8 3 0.04
D+Q MI+E2
+0.8
3
MI+E2
-0.13
4
and
coin
data
2200.1
72
6
E3
935,1
1083.9
40
4
MI+E2
next
M u l t . : a ( K ) e x p = 0 . 0 0 5 2, A 2 = - 0 . 5 2 4, A ~ = - 0 . 0 2 6; o t h e r : a ( K ) e x p ~ 0 . 0 1 , A z = - 0 . 4 7 1, A ~ = - 0 . 0 4 2 ( 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = 0 . 0 0 4 8 10, A 2 = - 0 . 6 4 3, A 4 = + 0 . 0 5 5; o t h e r : a ( K ) e x p = 0 . 0 0 5 0 6, A 2 = - 0 . 6 2 1, A 4 = + 0 . 0 3 2 ( 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = 0 . 0 0 5 7 10, A a = + 0 . 3 0 3, A4=+0.08; o t h e r : a ( K ) e x p = 0 . 0 0 6 1 6, A2=+0.33 4, A 4 = + 0 . 0 4 6 ( 8 2 P a 0 4 ) . B(E3)(W.u.)=52 7. M u l t . : a ( K ) e x p = 0 . 0 0 4 6 7, A 2 = - 0 . 1 7 4, A 4 = + 0 . 0 4 5; o t h e r : a(K)exp=O.O053 7, A e = - 0 . 1 9 4, A ~ = + 0 . 0 5 6 ( 8 2 P a 0 4 ) .
Mt
on
scheme
(83Ba10).
M u l t . : 7(8) is i s o t r o p i c b e c a u s e o f l a r g e T l / z = 8 5 s; a ( K ) w a s u s e d f o r n o r m a l i z a t i o n of a(K)exp for other gammas.
M4
927.2
Continued
level
M u l t . : A z = + 0 . 4 1. M u l t . : a ( K ) e x p = 0 . 0 2 2 7, A~=+0.14 9, A 4 = + 0 . 0 5 1; o t h e r : a ( K ) e x p < 0 . 0 3 , A a = + 0 . 3 0 8, A 4 = - 0 . 0 8 12 ( 8 2 P a 0 4 ) . Muir.: a ( K ) e x p = 0 . 0 0 7 3, A 2 = - 0 . 3 1, A 4 = - 0 . 1 1; o t h e r : a ( K ) e x p = 0 . 0 0 6 3, A 2 = - 0 . 2 5 2, A4=-0.09 4 (82Pa04). M u l t . : a ( K ) e x p = 0 . 0 0 3 5 20 ( 8 3 B a 1 0 , 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = 0 . 0 1 1 2, A2=+0.15 3, A 4 = + 0 . 0 3 4; o t h e r : a ( K ) e x p = 0 . 0 1 2 3, A2=+0.11 I, A 4 = + 0 . 0 3 2 ( 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = 0 . 0 1 5 5. M u l t . : a ( K ) e x p = 0 . 0 1 6 2, A e = + 0 . 3 3 2, A 4 = + 0 . 0 4 3; o t h e r : a ( K ) e x p = 0 . 0 1 8 2, A2=+0.28 1, A 4 = + 0 . 0 6 2 ( 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = 0 . 0 2 5 8. M u l t . : A z = - 0 . 1 I (83Ba10), a ( K ) e x p = 0 . 0 1 8 5 (82Pa04). M u l t . : A~=+0.4 3. M u l t . : a ( K ) e x p = 0 . 0 1 2 4, A2=+0.51 6; A 4 = + 0 . 0 2 8.
%
2181 .8 3357. 1
83Ba10 ( c o n t i n u e d )
&
MI+(E2
4 2 2 2 2
5
145p_A 8 4 "" "" 81 - - "
M u l t , : A 2 = - 0 . 1 5 5; A ~ = - 0 . 0 5 5. M u l t , : A 2 = - 0 . 1 5 6, A ~ = + 0 . 0 3 5; o t h e r : A 2 = - 0 . 2 1 2, A 4 = - 0 , 0 7 3 ( 8 2 P a 0 4 ) ,
12 4 4 10 12
908.9 924 . 7
SHEETS
144Sm(3He,2nT) E=24 MeV
5 8 5 25 22
3357.1
DATA
pa~e
(footnotes
74
at
end
of
table)
16445~n8~1
_ ~~
NUCLEAR
7(14~Gd) E7 t
E(level)
from I7 ~
985.6
2258.5
30
987.8
1015.1
1015.1 1026.0 1062.7 1109.4 1388.0
DATA
144Sm(3He,2nT) Mult.
E=24
t$
2
E2
320
20
MI+E2
1015.1 3458.4 2872.6 2382.3 1415.3
30 8 30 15 120
10 4 5 5 10
E2
1446.8
2195.6
115
8
MI+E2
1451.3
2200.1
40
3
EI+M2+E3
1471.0
1498.0
50
5
Mr+E2
1552.8
2301.6
265
15
E1
1683.6
2432.4
65
5
E3
2035.3
2784.1
70
6
SHEETS
MeV
7(i45Gd)
83Bat0
(continued)
~
Comments
+0.20
M u l t . : a ( K ) e x p = O . 0 0 3 1, A 2 = + 0 . 3 1 11, A 4 = + 0 . 0 5 14. Mult.: a(K)exp=0.0032 5; A z = + 0 . 0 1 1, A 4 = + 0 . 0 0 1; o t h e r : a ( K ) e x p = 0 . 0 0 4 1 3, A 2 = - 0 . 0 4 1, A 4 = + 0 . O l 2, ~ = + 0 . 1 0 4 ( 8 2 P a 0 4 ) . Mult.: (~(K)exp=0.0021 6 (82Pa04).
5
M u l t . : a ( K ) e x p = 0 . 0 0 1 1 3, A z = + O . 1 9 2, A 4 = - 0 . 0 5 3; o t h e r : a ( K ) e x p = 0 . O 0 1 2 2, A 2 = + 0 . 1 5 3, A 4 = - 0 . 8 1 5 ( 8 2 P a 0 4 ) . MulL.: a ( K ) e x p = O . 0 O l 2 3, A z = + 0 . 2 1 4, A 4 = - 0 . 0 2 4; o t h e r : a ( K ) e x p = 0 . 0 8 2 2 3, A e = + 0 . 1 6 2, A 4 = - 0 . 8 3 2 ( 8 2 P a 0 4 ) . MulL.: a ( K ) e x p = 8 . 0 0 2 5 6, A z = - 0 . 0 8 1, A 4 = - 0 . 0 7 2, 30% E1+40% M2+39% E3 ( 8 2 P a 0 4 ) ; other: a(K)exp=0.0014 5, A z = + 8 . 0 5 6, A 4 = - 0 . 0 4 9, E I + ( M 2 ) ( 8 3 B a 1 0 ) . Mult.: a(K)exp=0.0014 4, A z = - 0 . 0 3 10, A 4 = + 0 . 0 8 15 ( 8 2 P a 0 4 ) ; o t h e r : A 2 = - 0 . 0 5 10, A4=+0.05 d(83Bat0). MulL.: ( ~ ( K ) e x p = 0 . O 0 0 4 6 5, A 2 = - 0 . 1 6 1, A 4 = - 0 . 0 2 2; o t h e r : a ( K ) e x p = 0 . 0 0 8 4 6 6, A a = - 0 . 2 0 1, A 4 = + 0 . 0 8 ( 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = O . O O l 6 2, A z - + 0 . 3 5 4, A 4 = + 0 . 5 5; o t h e r : ~ ( K ) e x p = 0 . O O l 6 3, A 2 = + 0 . 4 7 3, A 4 = + 0 . 0 2 4 ( 8 2 P a 0 4 ) . B ( E 3 ) ( W . u . ) = 4 2 18. M u l t . : c ~ ( K ) e x p = 0 . 0 0 1 0 2 (E3) ( 8 2 P a 0 4 ) ; o t h e r : 12, A 2 = + 0 . 2 8 5 A 4 = - 0 . 1 3 6, a(K)exp=0.88084 may be El+M2 (83Ba10).
E2
~; F r o m 8 3 B a t O a t E ( a H e ) = 2 4 MeV e x c e p t w h e r e $ a(K)exp were normalized to a(K)(7217)=0.t15 § From 82Pa04.
16445~a8A1
-1.2
+8-4
noted otherwise. f o r p u r e M4.
from
74Ko29,80HaZY
144Sm(a,3nT)
E - 5 0 MeV (80HAZY), 43, 4 5 , 52 MeV ( 7 4 K o 2 9 ) . M e a s u r e d : 7, 7 7 , 7 ( 0 ) , y i e l d ( 7 4 K o 2 9 , 8 0 H a Z Y ) , ce (80HAZY). E(level)
E7 ~ 20 (27
101 109 149 378 395 721 794 x884
924 1026 1553 1884 x1860
$ § # *
7 3) 3
1 0 3 7 8 8
2 3
3 3
8# 3 8 3
0 5 3 1 3 5# 3
2433 27.3 3458 2411 3357 3585? 3603? 749 3207 3357
3458 2302 2433
Mult.
[7 t
$§
Comments ET: o b s e r v e d
884 11 9
80HAZY.
10, A 4 = + O . 0 1 4. 7, A 4 = + 0 . 0 4 5. 4, A 4 = - 0 . 0 6 5.
Mult.:
A2=-0.48
7 at
E(a)=52
MeV ( i f
A4=O.0).
MI+E2
Mult.:
A2=-0.45
4 at
E(a)=52
MeV ( i f
A 4 = 0 . 0 ).
MI
M u l t . : A 2 = - 0 . 7 2 25, A 4 = - 0 . 0 3 10. E 7 , M u l t . : f r o m 80HAZY. MulL.: A z - - 0 . 1 1 6, A 4 = + 0 . 0 2 8. M u l t . : A 2 = + 0 . 2 5 10, A 4 = - 0 . 0 5 10.
716
28 3 20 10 8 9 397
in
Mult.: Aa=-0.31 Mult.: Az=-0.26 MulL.: A 2 = - 0 . 0 9
6
858 304 l O 0 0 50 tO 5 11 3 15 23 5 14
only
E2 Et E3
F r o m 7 4 K o 2 9 a t E ( a ) = 4 5 MeV. A 2, A 4 f r o m 7 4 K o 2 9 a t E ( c 0 = 4 3 MeV e x c e p t w h e r e n o t e d o t h e r w i s e . Deduced from J~r b a s e d o n a ( K ) e x p ( n o t g i v e n ) a n d 7 ( 0 ) (80HAZY). Observed only by 74Ko29. T ray not placed in level scheme.
75
--~
145q~,
65-'80
NUCLEAR
t45Tb
Levels
from
145Dy
~
DATA
SHEETS
Decay
(13.6
S ( n ) = 1 1 3 2 0 SY; 8 ( p ) = 1 5 4 0 SY 85Wa02, M e a s u r e d : T, K x r a y ( 8 2 A I 0 7 ) , ~, ( 8 2 N o 0 8 ) . Decay scheme was proposed by evaluator on the assumption other N=79 nuclei with J=ll/2: t3°Nd, 1 4 t S m , 143Gd. E(level ) (O.O) O+y 578.2+y7 I" F r o m
J~r¢
T I /~
(I/2+) (11/2-) (9/2-) similarity
with
decay
of
Comments
s
15
schemes
of
29.5
"y(laSGd) f r o m
J=11/2-
65.b8o
82A107,82No08
similarity
with
E(level) 839.6+y? 804.3+y?
%r+%fl+=lO0.
other
s)
145T
N=79
nuclei:
27.3 200.6 246.6 257.7 268.5 371 .5 524.0
1 3 3 3 3 3 3 3 3
537.0 572.1 652.3 ¢ 3 698.0 3 721.4 3 908.5 3 935.1 3 987.6 3 1014 9 3 1109 3 3 1388 0 3 1432 5 3 1446 7 3 1471 5 ¢ 3
27 2381 2442 1272 1683 2181 1272 1809 2381 1667 2381 748
IV$§
3 8 0 7 8 2 7 7 8 2 8 7
7.2 4.1 39 4 3.0 1.4 I0 ! 23 2 14 2 1.1 5.5
2181 .2 1683.8 I014.9 1014.9 2381 . 8 1415.3 2181 .2 2195.4 1498 . 8
7.3 5.3 37 4 5.0 14 2 6.3 9.6 15 2 3. 3
Mult. MI+E2
t~'3Gd.
82No08,82StZU
a 2O
of
(13/2-) (9/2-,11/2-
Measured: 3, ( 8 2 N o 0 8 , 8 2 S o O 2 , 8 2 S t Z U , 8 1 A I 2 3 ) , ~/'y ( 8 2 S o 0 2 , 8 2 N o 0 8 ) . D e c a y s c h e m e is t h a t o f 8 2 N o 0 8 . IT n o r m a l i z a t i o n : i f IE(0 a n d 2 7 . 3 ) = 0 a n d u n p l a c e d T's w e r e n e g l e c t e d ( 8 2 N o 0 8 ) . "),'s: 280.4 4 (I-y=2.1 6), 397.2 4 (3 I), 586.4 5 (3 1)?, 736.1 6 (2.5 10), 769.0 3 (3.7 10), 794.2 5 (2.5 10), 858.3 5 (4 1), 1037.7 12 (2 1), 1 2 4 5 . 8 3 (6.5 12), 1294.1 5 ( 4 . 5 15), 1369.1 6 (4 2), 1 4 9 7 . 9 6 ( 4 . 2 14), 1514.2 6 ( 4 . 0 12), 1693.7 4 (9 2), 1 7 4 7 . 7 7 (5.5 30)?, 1779.8 8 ( 4 . 2 14), 1802.9 5 (7 2), o n l y b y 81A123 (IT 1809.9 8 (3.6 15), 1837.5 12 (2.5 15)?, 2 3 5 2 . 6 10 (6 3) w e r e o b s e r v e d normalized to IT(987.9)=100). E(level)
schemes
J~rI"
13gNd, 1 4 t S m ,
145Tb E D e c a y (29 s)
decay
ls
Comments
3
7 4 4 3
4 6 M4
0. 149
Isomeric decay
transition w i t h T t / 2 = 8 5 s, see f o r I(721.4~/) a n d I ( 2 7 . 3 T ) .
8 6 l'y: a s s u m e d 6 7 9 6
¢ Observed only by 81A123. $ F r o m 82No08. § For absolute intensity per I00 decays, multiply
by
1.0.
76
by
evaluator.
also
85 s IT
DATA SHEETS
NUCLEAR
:L45r,, 661JY79
145Dy A d o p t e d E(level)
145n, 661JY79
Levels
T1 / ~
Jw
Comments
(0.0) 0+x
(tl/g-)
13.6
s
10
%~+%fl+=100. Tl/z: from 82No08; other: Jvr: f r o m s i m i l a r i t y with t43Gd '
fl- r a d i a t i o n s
from
145Dy ~ Decay (13.6 s)
M e a s u r e d : "/, K x r a y ( 8 2 A 1 0 7 ) , 3, ( 8 2 N o 0 8 ) . Decay scheme was proposed by evaluator on the assumption other N=79 nuclei with J=ll/2: 139Nd, t * l S m , 143Gd.
"y(145Tb) f r o m 17 n o r m a l i z a t i o n :
E~ t x39.7 578.2? 639.6? 804.3?
3 3 3
I(839.67)=12%
E(level)
I7 ?t
578.2+y? 639.6+y? 804.3+y?
I00 93 77
18 s 3 ( 8 2 A 1 0 7 ) . decay schemes of
of
145Dy ~ Decay (13.6 s)
4 (82No08).
t From 83AI07. $ For absolute intensity p e r 100 decays, m u l t i p l y x 3, r a y n o t p l a c e d i n l e v e l s c h e m e .
by
0,13 5.
77
11/2-
isomers
in
13~Nd, i ~ l S m
82A107,82No08
similarity
with
decay
82A107,82No08
schemes
of
NUCLEAR DATA SHEETS
REFERENCES 54Ma07 55Si12 59Br65 59Dz06 59Gr10 590123 60A133 60Wil0 61An04 62AI19 62Be31 62Ho16 62NuOl 63A130 63Fr02 63We04 64Ho03 64Ma19 65De29 65Gr28 65Holi 651s01 65Ke09 66Ad01 66Bu13 66Ec02 66Go08 66Jo02 66Ka23 66Zh01 67Ba22 67Ch16 67Ch32 67Dr01 67Go32 67Hi05 67Ho19 67Ko09 67My01 670b03 68Ad04 68Ch30 68Ke14 68Wi21 69Gr32 69Ja02 69WiZX 70Ar04 70Be65 70ChO9 70Ep02 70Ka36 70Ne04
FOR
A
=
145
S . S . M a r k o w i t z , W . B e r n s t e i n , S . K a t c o f f - P h y s . R e v . 93, 176 ( 1 9 5 4 ) B . E . S i m m o n s , D.M.Van P a t t e r , K . F . F a m u l a r o , R . V . S t u a r t - P h y s . R e v . 97, 89 (1955) A . R . B r o s i , B . H . K e t e l l e , H . C . T h o m a e , R . J , K e r r - P h y s . R e v . 113, 239 (1959) B.S.Dzhelepov, I.M.Rogachev - JINR-P-483, Pt.3, p.90, (1959) J . R . G r o v e r - P h y s . R e v . 116, 4 0 6 (1959) J . O l k o w s k y , M.Le P a p e , I . G r a t o t , L . C o h e n - N u c l e a r P h y s . 12, 527 (1959) J.Alstad, A.C.Pappas - J.Inorg.Nuclear C h e m . 15, 222 (1960) R . G . W i l l e , R . W . F i n k - P h y s . R e v . 118, 2 4 2 (1960) N.M.Antoneva, A.A.Bashilov, B.S.Dzhelepov, K.G,Kaun, A.F.A.Meyer, V.B.Smirnov - Zhur.Eksptl.i T e o r e t . F i z . 40, 23 (1961); S o v i e t P h y s . J E T P 13, 15 (1961) Y.A.Aleksandrov, B.Bemer Izv.Akad.Nauk SSSR, S e r . F i z . 2 6 , 1159 ( 1 9 6 2 ) ; B u l l . A c a d . S c i . U S S R , P h y s . S e r . 2 6 , 1171 (1963) E.Y.Berlovich, G.M.Bukat, Y.K.Gusev, V.V.Ilin, V.V.Nikitin, M.K.Nikitin - Phys.Letters 2, 3 4 4 (1962) D . C . H o f f m a n - A E R E - M - 1 0 7 6 , p . 2 4 (1962) M.Nurmia, P.Kauranen, A . S i i v o l a - P h y s . R e v . 127, 9 4 3 (1962) D.G.Alkhazov, K.I.Erokhina, I.K.Lemberg Izv. Akad.Nauk SSSR, Ser. Fiz. 27, 1363 ( 1 9 6 3 ) ; B u l l . A c a d . S c i . U S S R , P h y s . S e r . 27, 1339 ( 1 9 6 4 ) A . M . F r i e d m a n , J . M i l s t e d , O . S k i l b r e i d - P h y s . R e v . 129, 1752 (1963) S . E . W e a r y , M.L.Pool, H . D . S p a n g e n b e r g - B u l l . A m . P h y s . S o c . 8, No.4, 321, GA16 (1963) D.C.Hoffman, W.R.Daniels - J.Inorg.Nucl.Chem. 26, 1769 ( 1 9 6 4 ) R . D . M a c f a r l a n e , D . W . S e e g m i l l e r - N u e l . P h y s . 53, 4 4 9 ( 1 9 6 4 ) [.Demeter, F.Molnar, E.Nadzhakov, A.F.Novgorodov - Izv.Akad.Nauk SSSR, S e r . F i z . 29, 2198 (1965); B u l l . A c a d . S c i . U S S R , P h y s . S e r . 29, 2 0 3 4 (1966) K.Y.Gromov, I.Mahunka, M.Mahunka, T.Fenyes Izv.Akad.Nauk SSSR, S e r . F i z . 29, 194 (1965); B u l l . A c a d . S c i . U S S R , P h y s . S e r . 29, 195 (1966) D . C . H o f f m a n , O . B . M i c h e l s e n - K R - 7 6 (1965) A.Isola, M.Nurmia - Z.Naturforsch. 20a, 541 (1965) R . A . K e n e f i c k , R . K . S h e l i n e - P h y s . R e v . 139, B1479 (1965) [.Adam, K.Vilskii, Z.Zhelev, M,Iorgensen, M.Krivopustov, V.Kuznetsov, O.B.Nilsen, M.Finger JINR-P-2581 (1966) R.J.Bullock, N.R.Large - Radiochim.Acta 6, 201 (1966) D.Eccleshall, M.J.L.Yates, J.J.Simpson - N u c l . P h y s . 78, 481 (1966) T.Goworek, Z.Skorzynski, J.Wawryszczuk - A c t a P h y s . P o l o n . 29, 4 0 7 (1966) R . K . J o l l y , C.F.Moore - P h y s . R e v . 145, 918 (1966) G.Kauw - Forschungsber.Landes Nordrhein-Westfalen No.1640 (1966) Z . Z h e l e v , G . M u z i o l - Y a d . F i z . 4, 3 (1966); S o v i e t J . N u c l . P h y s . 4, I (1967) A . B a c k l i n , S . G . M a l m s k o g - A r k . F y s . 34, 531 (1967) P . R . C h r i s t e n s e n , B . H e r s k i n d , R . R . B o r c h e r s , L . W e s t g a a r d - N u c l . P h y s . A102, 481 (1967) V.G.Chumin, Z.Zhelev, K.Y.Gromov, B.Makhmudov - I n t e r n . N u c l . P h y s . C o n f . , G a t l i n b u r g , T e n n . (1966); R . L . B e c k e r , C . D . G o o d m a n , P . H . S t e l s o n , A . Z u c k e r , Eds., A c a d e m i c P r e s s , New Y o r k , p . 9 2 2 (1967) J . E . D r a p e r , R . 0 . M e a d , R . A . W a r n e r - N u c l . P h y s . A95, 209 (1967) N . A . G o l o v k o v , K . Y . G r o m o v , N.A.Lebedev, B . M a k h m u d o v , A . S . R u d n e v , V . G . C h u m i n - I z v . A k a d . N a u k SSSR, S e r . F i z . 31, 1618 (1967); B u l I . A c a d . S c i . U S S R , P h y s . S e r . 31, 1657 (1966) J . C . H i l l - P h y s . R e v . 153, 1312 (1967) D . C . H o f f m a n , O . B . M i c h e l s e n , W . R . D a n i e l s - A r k . F y s . 36, 211 (1967) J.Kormicki, H.Niewodniczanski, Z . S t a c h u r a , K . Z u b e r , A . B u d z i a k - N u c l . P h y s . A I 0 0 , 297 (1967) B.Myslek, Z.Sujkowski, A.Zglinski - Priv.Comm. ( J u n e 1967) J . E . J . O b e r s k i , A . H . W a p s t r a - P h y s i c a 34, 579 (1967) I . A d a m , K . S . T o t h , M . F . R o c h e - N u c l . P h y s . A I 2 I , 289 (1968) Y.Y.Chu, E.M.Franz, G.Friedlander - P h y s . R e v . 175, 1523 (1968) K.A.Keller, H.Munzel - Radiochim.Acta 9, 176 (1968) K.Wilsky, K.Y.Gromov, Z.T.Zhelev, V.V.Kuznetsov, G.Muziol, O.B.Nielsen, O.Skilbreid - Izv.Akad.Nauk SSSR, S e r . F i z . 32, 187 (1968); B u l I . A c a d . S c i . U S S R , P h y s . S e r . 32, 169 (1969) Z.G.Gritchenko, T.P.Makarova, Y.T.Oganesyan, Y.E.Penionzhkevich, A . V . S t e p a n o v - Y a d e r n . F i z . i0, 929 (1969)', S o v i e t J . N u c l . P h y s . I0, 536 (1970) G . J a n s e n , H . M o r i n a g a , C . S i g n o r i n i - N u c l . P h y s . AI2S, 2 4 7 (1969) J.B.Wilhelmy - Thesis, Univ.California (1969); U C R L - 1 8 9 7 8 (1969) - Izv.Akad.Nauk SSSR, S e r . F i z . 34, 4 0 9 R . A r l t , G.Beyer, G . M u s i o l , L . K . P e k e r , G . P f r e p p e r , H . S t r u s n y (1970); B u l l . A c a d . S c i . U S S R , P h y s . S e r . 34, 356 (1971) D.Berenyi, A,Szalay, D.Varga, F.Molnar, J.Uchrin - A c t a P h y s . 28, 431 (1970) Y.Y.Chu, E.M.Franz, G.Friedlander - P h y s . R e v . C1, 1826 (1970) R . E . E p p l e y , M . C . M c H a r r i s , W . H , K e l I y - P h y s . R e v . C2, 1929 (1970); E r r a t u m Priv.Comm. ( M a r c h 1973) G . K a i n d l - Z . P h y s i k 240, I 0 0 (1970) E . N e w m a n , K . S . T o t h , R . L . A u b l e , R.M.Gaedke, M . F . R o c h e , B . H . W i l d e n t h a l - P h y s . R e v . C1, 1118 (1970)
78
NUCLEAR DATA SHEETS
REFERENCES 700sZZ 7OSeZP 71BaZA 71CaXY 71Ep01 71Ho29 71My01 71Tr02 71Wi04 72Ni16 720h08 72Vy08
73Bi06 73Ga01 73MAY0 73Ne01 73Wu03 74Ar17 74Bu31 74ClZX 74Gr29 74Ko29 74No05 74Ro15 74To04 74To07 74Wu02 75Be09 75Bo22 75BuZA 75C101 75Fi02 75Fi04 75Fi05 75Fr18 75Hi03 75K101 75NaZE 75Th09 76AmZW 76Be09
FOR
A
=
145
(CONTINUED)
T h e OSIRIS Collaboration - Proc.lnt.Conf.Prop.Nuclei Far f r o m Region of Beta-Stability, Leysin, Switzerland, Vol.2, p.I093 (1970); C E R N - 7 0 - 3 0 (1970) V.Sergejev, Z.Sujkowski, J.Kownacki, H.Ryde - Ann.Rept., Research Inst.Phys., Stockholm, p.33 (1970) J.B.Ball, R.L.Auble, J.Rapaport - O R N L - 4 6 4 9 , p.17 (1971) Y.Cassagnou, A.Heusler, M . L a m e h i - R a c h t i , C.Levi, W.Mittig, L.Papineau - C E A - N - 1 5 2 2 , p.34 (1971) R.E.Eppley, W.C.McHarris, W.H.Kelly - Phys.Rev. C3, 282 (1971) F.F.Hopkins, G.W.Phillips, J.R.White, C.F.Moore, P.Richard - Phys.Rev. C4, 1927 (1971) B.Myslek, B.Pietrzyk, Z.Sujkowski, J.Szczepankowski - Acta Phys.Pol. B2, 441 (1971) B.L.Tracy, J . C h a u m o n t , R.Klapisch, J.M.Nitschke, A.M.Poskanzer, E.Roeckl, C.Thibault - Phys.Lett. 34B, 277 (1971) B . H . W i l d e n t h a l , E . N e w m a n , R . L . A u b l e - P h y s . R e v . C3, 1199 (1971) D.W.Nix, J.C.McGeorge, R . W . F i n k - Z . P h y s . 256, 131 (1972) A . O h y o s h i , E . O h y o s h i , T . T a m a i , M . S h i n a g a w a - J . I n o r g . N u c l . C h e m . 34, 3293 (1972) T,Vylov, K.Y.Gromov, I.I.Gromova, G.I.Iskhakov, V.V.Kuznetsov, M.Y.Kuznetsova, N.A.Lebedev, M . I . F o m i n y k h - I z v . A k a d . N a u k SSSR, S e r . F i z . 36, 2118 (1972); B u l l . A c a d . S e i . U S S R , P h y s . S e r . 36, 1864 (1973) C . R . B i n g h a m , D.U.O'Kain, K . S . T o t h , R . L . H a h n - P h y s . R e v . C7, 2575 (1973) S.Gales, L.Lessard, J.L.Foster,Jr. - Nucl.Phys. A202, 535 (1973) M.R.Macphail - Thesis, M c M a s t e r Univ. (1973) E . N e w m a n , K.S.Toth, I.R.Williams - Phys.Rev. C7, 290 (1973) K . W u n s c h , H.Gunther, G.Siegert, H.Wollnik - J.Phys.(London) A6, L93 (1973) P.O.Aronsson, G . S k a r n e m a r k , M.Skarestad - J.Inorg.Nucl.Chem. 36, 1689 (1974) T . W . B u r r o w s - Nucl.Data Sheets 12, 203 (1974) R.G.Clark, L.E.Glendenin, W.L.Talbert,Jr. - Proc.Symp.Phys.Chem.Fission, 3rd, Rochester, N.Y. (1973), I n t . A t . E n . A g e n c y , V i e n n a , Vol.2, p.221 (1974) B . G r a p e n g i e s s e r , E . L u n d , G . R u d s t a m - J . I n o r g . N u c l . C h e m . 36, 2409 (1974) J . K o w n a c k i , J . L u d z i e j e w s k i , Z . S u j k o w s k i , H . A r n o l d , H . R y d e - N u c l . P h y s . A236, 125 (1974) G . A . N o r t o n , N . L . G e a r h a r t , H . J . H a u s m a n , J . F . M o r g a n - P h y s . R e v . C9, 1594 (1974) E . R o e c k l , P . F . D i t t n e r , R . K l a p i s c h , C . T h i b a u l t , C . R i g a u d , R . P r i e e l s - N u c l . P h y s . A222, 621 (1974) F.Tolea, K . R . B a k e r , W . D . S c h m i d t - O t t , R . W . F i n k - Z . P h y s . 268, 289 (1974) K.S.Toth, C.R.Bingham, W . - D . S c h m i d t - O t t - P h y s . R e v . C10, 2550 (1974) K . W u n s c h , H . W o l l n i k , G . S i e g e r t - P h y s . R e v . C10, 2523 (1974) M . J . B e c h a r a , 0 . D i e t z s c h - Z . N a t u r f o r s c h . 30a, 356 (1975) W . B o o t h , S . W i l s o n - N u c l . P h y s . A247, 126 (1975) M.Budzynski, V.Zhuk, R.Ion-Mikhai, T.M.Muminov, M.Cubotovich, I.Kholbaev, Y a . V a v r y s h c h u k - P r o g r a m and Theses, Proc.25th Ann.Conf.Nucl,Spectrosc.Struct.At.Nuclei, L e n i n g r a d , p.103 (1975) D.Clement, E.J.Kanellopoulos, K.Wildermuth - P h y s . L e t t . 55B, 19 (1975) R . B . F i r e s t o n e , R . A . W a r n e r , W . C . M c H a r r i s , W.H.Kelly - P h y s . R e v . C11, 1864 (1975) R . B . F i r e s t o n e , R . A . W a r n e r , W . C . M c H a r r i s , W.H.Kelly - P h y s . R e v . L e t t . 35, 401 (1975) R . B . F i r e s t o n e , R . A . W a r n e r , W . C . M c H a r r i s , W.H.Kelly - P h y s . R e v . L e t t , 35, 713 (1975) W . D . F r o m m , L . F u n k e , K . D . S c h i l l i n g - P h y s . S c r . 12, 91 (1975) D.L.Hillis, C . R . B i n g h a m , D . A . M c C l u r e , N . S . K e n d r i c k , J r . , J.C.HiI1, S . R a m a n , J.B.Ball, J . A . H a r v e y P h y s . R e v . C12, 260 (1975) P . K l e i n h e i n z , M.R.Maier, R . M . D i a m o n d , F . S . S t e p h e n s , R . K . S h e l i n e - P h y s . L e t t . 53B, 4 4 2 (1975) M.R.Najam, A.F.M.Ishaq, M . A n w a r - u l - I s l a m , A.M.Khan, J.A.Merza - Proc.Int.Symp.Neutron Capture Gamma-Ray S p e c t r o s c o p y a n d R e l a t e d T o p i c s , 2 n d , P e t t e n , p.566 (1975) S . T . T h o r n t o n , J . L . C . F o r d , J r . , E . F r i e d l a n d , C . A . W i e d n e r , M . G o l d s c h m i d t - P h y s . R e v . C12, 877 (1975) S.Amiel, G.Engler, Y.Nir-E1, M.Shmid - Proc.lnt.Conf.Nuclei Far from Stability, 3rd, Cargese, F r a n c e , R . K l a p i s c h , Ed., C E R N - 7 6 - 1 3 , p.501 (1976) R . B . B e g z h a n o v , K . S . A z i m o v , S , K . S a l i m o v , K . T . T e s h a b a e v - Y a d . F i z . 23, 8 (1976); S o v . J . N u c l . P h y s . 23, 3 (1976)
76BjZY 76Fu06 76Ho17 76Ja01 76LoZT
76Sh05 77BaZP 77Bj02 77C102
J.Bjerregaard, C.Ellegaard, P.Kleinheinz, P.Knudson, J.R.Lien, G.Lovhoiden, J.Rekstad K F A - I K P - 1 0 / 7 6 , p.60 (1976) G.H,Fuller - J.Phys.Chem.Ref.Data 5, 835 (1976) G . E . H o l l a n d - N u c l . D a t a S h e e t s 19, 337 (1976) S . V . J a c k s o n , R . A . M e y e r - P h y s . R e v . C13, 339 (1976) bOHENGRIN-Collaboration, R.Stippler, F.Munnich, H.Schrader, J.P.Bocquet, R.Decker, B.Pfeiffer, H.Wollnit, E.Monnand, F.Schussler - Proc.Int.Conf.on Nuclei Far from Stability, 3rd, Cargese, p.109; C E R N - 7 6 - 1 3 (1976) T . S h i b a t a , Y.Nagai, M . F u j i w a r a , H . E j i r i , N . N a k a n i s h i , S . T a k e d a - N u c l . P h y s . A257, 303 (1976) N.B.Badalov, Y a . V a v r y s h u k , T s . V y l o v , I . I . G r o m o v a , Z h . Z h e l e v , N.A.Lebedev, S h . O m a n o v , Y a . S a z h i n s k i Program and Theses 27th Ann'C°nf'Nucl'Spectr°sc'Struct'At'Nuclei' T a s h k e n t , p.68 (1977) T . B j o r n s t a d , E.Kvale, G . S k a r n e m a r k , P . O . A r o n s s o n , T h e S1SAK C o l l a b o r a t i o n - J . I n o r g . N u c l . C h e m . 39, 1929 (1977) H . C l e m e n t , G . G r a w , R . Z e n g e r , G . Z o l l n e r - N u c l . P h y s . A285, 109 (1977)
79
NUCLEAR
REFERENCES 77Ha04 77Hell 77Ho18 77Mc09 77Na07 77Re05 77Re06 77Ro29 77Se04 77Sk02 78Cr03 78LeZA 78Pf02 78SaZP 78ScYY 78St03 78VaZS 78VyZX 78WaZM 78Wo09 79Bo26 79Ek02 79En02 79Ha48 79KI02 79Ri09 79RuZR 79Ta17 79To04 8OAdZW 8OBa01 80Gell 80HAZY
80Ho33 8OJal5 80K107 80Ko16 80Lo06 80LuO4 80Ra01 8OReZR 80Stl0 8OYaO7 81A123
81BeYJ
81CI01
FOR
DATA
A
=
SHEETS
145
(CONTINUED)
Z . H a r a t y m , J . K o w n a c k i , J . L u d z i e j e w s k i , Z . S u j k o w s k i , L.-E.De Geer, A . K e r e k , H.Ryde - N u c l . P h y s . A276, 299 (1977) A . H e u s l e r , M . L a r n e h i - R a e h t i , C.Levi, W.Mittig, L . P a p i n e a u - N u c l . P h y s . A283, 331 (1977) P . H o r n s h o j , H . L . N i e l s e n , N . R u d - P h y s . R e v . L e t t . 39, 537 (1977) D.A.McClure, S . R a m a n , G . G . S l a u g h t e r - P h y s . R e v . C16, 1278 (1977) Y.Nagai, T . S h i b a t a , S . N a k a y a m a , H . E j i r i - N u c l . P h y s . A282, 29 (1977) P . L . R e e d e r , J . F . W r i g h t , L . J . A l q u i s t - P h y s . R e v . C15, 2108 (1977) P . L . R e e d e r , J . F . W r i g h t , L . J . A l q u i s t - P h y s . R e v . C15, 2098 (1977) Z.Roller-lvanovic, A . L j u b i c i c , V . P a a r , B.A.Logan - P h y s . R e v . C16, 2376 (1977) M . S e k i g u c h i , Y . S h i d a , F.Soga, T , H a t t o r i , Y . H i r a o , M . S a k a i - P h y s . R e v , L e t t . 38, 1015 (1977) G.Skarnemark, P.O.Aronsson, T.Bjornstad, E.Kvale, N.Kaffrell, E.Stender, N.Trautmann J . I n o r g . N u c l . C h e m . 39, 1487 (1977) J . C r a n c o n , C . R i s t o r i , H . O h m , W , R u d o l p h , K . - L . K r a t z , M . A s g h a r - Z . P h y s . A287, 45 (1978) C.M.Lederer, V.S.Shirley, E.Browne, J.M.Dairiki, R.E.Doebler, A.A.Shihab-Eldin, L,J.Jardine, J . K . T u l i , A . B . B u y r n - T a b l e o f I s o t o p e s , 7 t h Ed., J o h n W i l e y a n d S o n s , Inc., New Y o r k (1978) B.Pfeiffer, F.Schussler, J.Blachot, S.J.Feenstra, J.van Klinken, H.Lawin, E.Monnand, G.Sadler, H.Wollnik, K . D . W u n s c h , T h e JOSEF-, LOHENGRIN-, a n d O S T I S - C o l l a b o r a t i o n - Z . P h y s . A287, 191 (1978) A . S a h a , R . H . S i e m s s e n , J . W . S m i t s , J . v a n P o p t a - KVI A n n . R e p t . 1 9 7 7 , p,14 (1978) F . S c h u s s l e r , E . M o n n a n d , J . A . P i n s t o n , S . J . F e e n s t r a , J . V a n K l i n k e n - C E A - N - 2 0 7 4 , p.25 (1978) R.Stippler, F.Munnich, H.Schrader, K.Hawerkamp, R.Decker, B.Pfeiffer, H.Wollnik, E.Monnand, F . S c h u s s l e r - Z . P h y s . A285, 287 (1978) J . v a n d e r P l i c h t , M . N . H a r a k e h , T . I s h i m a t s u , F . E . B e r t r a n d , R . H . S i e m s s e n - KVI A n n . R e p t . , 1977, p.17 (1978) T s . V y l o v - J I N R - P 6 - 1 1 8 4 7 (1978) D.D.Warner, W.F.Davidson, W.Gelletly - C o n t r i b . I n t . S y m p . N e u t r o n Capture Gamma-Ray Spectrosc.and R e l a t e d T o p i c s , 3 r d , U p t o n , N.Y., No.84 (1978) F . K . W o h n , K . D . W u n s c h , H . W o l l n i k , R . D e c k e r , G . J u n g , E.Koglin, G . S i e g e r t - P h y s . R e v . C17, 2185 (1978) H.G.Borner, W.F.Davidson, J.Almeida, J.Blachot, J.A.Pinston, P.H.M.Van Assche Nucl.Instrum.Methods 164, 579 (1979) C . E k s t r o m , L . R o b e r t s s o n , G . W a n n b e r g , J . H e i n e m e i e r - P h y s . S e r . 19, 516 (1979) G . E n g l e r , Y . N i r - E 1 , M . S h m i d , S . A m i e l - P h y s . R e v . C19, 1948 (1979) D . R . H a e n n i , H . B e u s c h e r , R.M.Lieder, M . M u l l e r - V e g g i a n , A . N e s k a k i s , C . M a y e r - B o r i c k e - N u c l . P h y s . A331, 141 (1979) W . K l i n g e r , R . B o h m , W.Engel, W . S a n d n e r , R . S e e b o c k , W . W i t t h u h n - Z . P h y s . A290, 227 (1979) C . R i s t o r i , J . C r a n c o n , K . D . W u n s c h , G . J u n g , R . D e c k e r , K . - L . K r a t z - Z . P h y s . A290, 311 (1979) G . R u d s t a m - P r i v . C o m m . (1979); See a l s o BNL-51778, p.337 (1983) H . W . T a y l o r , B . S i n g h - J . P h y s . ( L o n d o n ) G5, 1445 (1979) A . P . T o m o z o v , G . B , A n d r e e v , V . A . L u t s i k , A . V . S h c h a g i n - Y a d . F i z . 29, 852 (1979); S o v . J . N u c l . P h y s . 29, 438 (1979) I.Adam, Zh.T.Zhelev, B.Kratsik, A.Kugler Program and Theses, Proc.30th Ann.Conf.Nucl.Spectrosc.Struct.At.Nuclei, L e n i n g a r d , p.98 (1980) D.Bazzacco, A . M . I . H a q u e , K.0.Zell, P . v o n B r e n t a n o , C . P r o t o p - P h y s . R e v . C21, 222 (1980) R.J.Gehrke, J.D.Baker - Int.J.Appl.Radiat.lsotop. 31, 509 (1980) D . R . H a e n n i , H . B e u s c h e r , R.M.Lieder, M . M u l l e r - V e g g i a n , A . N e s k a k i s , C,M a y e r - B o r e c k e - Proc.6th E u r o p e a n P h y s . S o c . N u c l i . D i v . C o n f . o n S t r u c t u r e of M e d i u m Hea v y Nuclei, R h o d e s , Greece, 1979, p.300 (1980) J . J . H o g a n - R a d i o c h i m . A c t a 27, 73 (1980) M . J a s k o l a - A c t s P h y s . P o l . BI1, 393 (1980) W . K l i n g e r , R . B o h m , W . S a n d n e r , W . W i t t h u h n - N u c l . P h y s . A350, 61 (1980) M.Kortelahti, M.Piiparinen, A.Pakkanen, T.Komppa, R.Komu, S.Brant, I.J.Udovicic, V.Paar N u c l . P h y s . A342, 421 (1980) G.Lovhoiden, J.R.Lien, S.E1-Kazzaz, J.Rekstad, C.Ellegaard, J.H.Bjerregaard, P.Knudsen, P . K l e i n h e i n z - N u c l . P h y s . A339, 477 (1980) E . L u n d , P . H o f f , K . A l e k l e t t , O . G l o m s e t , G . R u d s t a m - Z . P h y s . A294, 233 (1980) D . A . R a k e l , R . K a c z a r o w s k i , E . G . F u n k , J . W . M i h e l i c h - P h y s . R e v . C21, 595 (1980) P . L , R e e d e r , R . A . W a r n e r - P r i v . C o m m . (1980); See a l s o BNL-51778, p.337 (1983) O . S t r a u m e , G . L o v h o i d e n , D . G . B u r k e - Z . P h y s . A295, 259 (1980) H . Y a m a m o t o , Y . I k e d a , K . K a w a d e , T . K a t o h , T . N a g a h a r a - J . l n o r g . N u c l . C h e m . 42, 1539 (1980) G . D . A l k h a z o v , E . E . B e r l o v i c h , K.A.Mezilev, Y u . N . N o v i k o v , V . N . P a n t e l e e v , A . G . P o l y a k o v , V . P . A f a n a s e v , N.Ganbaatar, K.Ya.Gromov, V.G.Kalinnikov, Ya.Kormitski, A.Lyatushinski, A.Potempa, F.Tarkani, Yu.V.Yushkevich - I z v . A k a d . N a u k SSSR, S e r . F i z . 45, 1827 (1981) R.B,Begzhanov, K.Sh.Azimov, R.D.Magrupov, Sh.A.Mirakhmedov, A.Mukhammadiev, M.Narzikulov, S.Kh.Salimov - Program and Theses, Proc.31st Ann.Conf.Nucl.Spectrosc.Struct.At.Nuclei, Samarkand, p . 6 5 4 (1981) P.D,Clark, T.R,Ophel, J.Nurzynski, C.H.Atwood, D.F.Hebbard - Nucl.Phys. A352, 267 (1981)
80
NUCLEAR
REFERENCES 81De35 81EbOl 8tEnO5 81Rel0 81Th06
81VaZJ 82A107
82Ar13 82ChZV 82De26 82DeZX 82FiO1 82Ga12 82No08 83Pa04 82P824 82Ra13 83Sc35 82So02 82StZU 83Ba10 83BeZF 83DeZI 83Go15 83BaZC 83Kr19 83Mu12 83Sc38 83Va02 83VolO 84Ce01 84Dr03 84Ga16 84Ma39 84Ra03 84RuZW 85Wa02 86RoZT 86RoZU
FOR
DATA
A
=
SHEETS
145
(CONTINUED)
R . D e c k e r , K . D . W u n s c h , H . W o l l n i k , G . J u n g , J . M u n z e l , O . S i e g e r t , E . K o g l i n - Z . P h y s . A3Ol, 165 (1981) l . D . U . E b o n g , R.R.Roy - Z . P h y s . A299, 209 (1981) G . E n g l e r , E . N e e m a n - N u c l . P h y s . A367, 29 (1981) J , R e k s t a d , I.Espe, G . L o v h o i d e n , J . R . L i e n , J . C . W a d d i n g t o n , C . G a a r d e , J . S . L a r s e n , S . v a n d e r W e r f N u c l . P h y s . A369, 453 (1981) C.Thibault, F.Touchard, S.Buttgenbach, R . K l a p i s c h , M,De S a i n t Simon, H.T.Duong, P.Jacquinot, P . J u n c a r , S . L i b e r m a n , P . P i l l e t , J . P i n a r d , J . L . V i a l l e , A . P e s n e l l e , T h e ISOLDE C o l l a b o r a t i o n , G . H u b e r - N u c l . P h y s . A367, 1 (1981) A . M . v a n d e n Berg, M . N . H a r a k e h , Y . I w a s a k i , R . H . S i e m s s e n , S . Y . v a n d e r W e r f - KVI A n n . R e p t . , 1980, p.25 (1981) G . D . A l k h a z o v , K.P~.Mezilev, Y u . N . N o v i k o v , V . N , P a n t e l e y e v , A . G . P o l y a k o v , V . P . A f a n a s y e v , N . G a n b a a t a r , K.Ya.Gromov, V.G.Kalinnikov, J.Kormicki, A.Latuszynski, A.Potempa, J.Sieniawski, F.Tarkanyi, Yu.V.Yushkevich - Z . P h y s . A305, 185 (1982) J . A r d a l , J . R . L i e n , G . L o v h o i d e n , D . G . B u r k e , J . C . W a d d i n g t o n - C a n . J , P h y s . 60, 1534 (1982) Y.Y.Chu, M.Smid, M.L.Zhou, R.L.Gill, R.E.Chrien, H.Dejbakhsh, R.F.Petry, C.Chung B u l l . A m . P h y s . S o c . 27, No.4, 519, E X a l 3 (1982) V . A . D e r y u g a , T . I . K r a t s i k o v a , M . F i n g e r , Y a . D u p a k , A . I . V d o v i n , W . D . H a m i l t o n - I z v . A k a d . N a u k SSSR, S e r . F i z . 46, 860 (1982) H . D e j a k h s h , R . F . P e t r y , M . S h m i d , Y . Y . C h u , A.Wolf, R.L.GiI1, R . E . C h r i e n - B u l l . A m . P h y s . S o c . 27, No.4, 510, E X a I 2 (1982) R . B . F i r e s t o n e , R . C . P a r d o , R . A . W a r n e r , W m . C . M c H a r r i s , W.H.Kelly - P h y s . R e v . C25, 527 (1982) G.Gales, C.P.Massolo, S.Fortier, E.Gerlic, J.Guillot, E.Hourani, J.M.Maison, J'.P.Schapira, B . Z w i e g l i n s k i , P , M a r t i n , V . C o m p a r a t - P h y s . R e v . L e t t . 48, 1593 (1982) E.Nolte, S.Z.Gui, G . C o l o m b o , G . K o r s c h i n e k , K . E s k o l a - Z . P h y s . A306, 223 (1982) A.Pakkanen, J.Muhonen, M.Piiparinen, J.Blomqvist - N u c l . P h y s . A373, 237 (1982) B.Pahlmann, U . K e y s e r , F . M u n n i c h , B . P f e i f f e r - Z . P h y s . A308, 345 (1982) M . S . R a p a p o r t , G . E n g l e r , A . G a y e r , I . Y o r e s h - Z . P h y s . A305, 359 (1982) H . J . S e h e e r e r , D . P e r e i r a , A . C h a l u p k a , R . G y u f k o , C . - A . W i e d n e r - Z . P h y s . A308, 183 (1982) D.C.Sousa, K . S , T o t h , C . R . B i n g h a m , A . C . K a h l e r , D . R . Z o l n o w s k i - P h y s . R e v . C25, 1012 (1982) J . S t y c z e n , P . K l e i n h e i n z , M . P i i p a r i n e n , J . B l o m q v i s t - J U L - S p e z - 1 4 6 , p.56 (1982) D.Bazzacco, A.M.I.Haque, K.O.ZeI1, W . N e u m a n n , J . E b e r t h , P . v o n B r e n t a n o , C . P r o t o p - Z . P h y s . A310, 65 (1983) R.B.Begzhanov, D.A.Gladyshev, K.Sh.Azimov, A,Mukhamrnadiev, M.Narzikulov, S.Kh.Salimov - Program and Theses, 33rd Ann.Conf.Nucl.Spectrosc.Struct.At.Nuclei, Moscow, p.lO0 (1983) H . D e j b a k h s h , R.F.Petry - Diss.Abst.InL. 43B, 3639 (1983) L.I.Govor, A.M.Demidov, M.A.A1-Arnili, T.J.A1-Janabi, V.D.Avchukhov, K.A.Baskova, A.B.Vovk N u c l . P h y s . A406, 456 (1983) E . H a m m a r e n , O . H a u s s e r , H . R . A n d r e w s , P . T a r a s , A . L a r a b e e , J . W a d d i n g t o n - JYFL R R - 1 5 / 8 3 (1983) T.I.Kracikova, S.Davaa, M.Finger, V.A.Deryuga - Hyperfine Interactions 1 5 / 1 6 , 73 (1983) A.C.Mueller, F . B u c h i n g e r , W . K l e m p t , E.W.Otten, R . N e u g a r t , C . E k s t r o m , J . H e i n e r n e i e r - N u c l . P h y s . A403, 234 (1983) U.J.Schrewe, W.-D.Schmidt-Ott - Z . P h y s . A313, 137 (1983) F . G . v a n d e n Berg, W . v a n R i j s w i j k , W . J . H u i s k a m p - P h y s . L e t t . 12OB, 67 (1983) E.VoLh, W . - D . S c h m i d t - O t t , H . B e h r e n s - Z . P h y s . A313, 167 (1983) M.L.Cescato, M . C . H e r m i d a M.Ruiz, J . L . F o s t e r , J r . , F . K r m p o t i c - P h y s . R e v . C29, 49 (1984) E . D r a g u t e s c u , M . I v a s c u , R . M i h u , D . P o p e s c u , G . S e m e n e s c u , V . P a a r , D . V r e t e n a r - N u c l . P h y s . A419, 148 (1984) S . G a l e s - J . P h y s . ( P a r i s ) , C o l l o q . C 4 , 39 (1984) F . M . M a n n , M . S c h r e i b e r , R . E . S c h e n t e r , T . R . E n g l a n d - N u c l . S c i . E n g . 87, 418 (1984) T.Ramsoy, J.Rekstad, A.Henriquez, F.Ingerbretsen, M.Guttormsen, E.Hammaren, T.F.Thorsteinsen N u c l . P h y s . A414, 269 (1984) B.Rubio, R.Julin, A.Ercan, P.Kleinheinz, J . L . T a i n , G.P.A.Berg, G . H l a w a t s c h , J . M e i s s b u r g e r , D . P a u l , J.G.Romer, J.Blomqvist - J U L - S p e z - 2 5 5 , p.50 (1984) A . H . W a p s t r a , G . A u d i - N u c l . P h y s , A432, 1 (1985); N u c l . P h y s . A432, 55 (1985) J . D . R o b e r t s o n - P r i v . C o m m . (1986) J . D . R o b e r t s o n , S . H . F a l l e r , E . B a l m , W . B . W a l t e r s , E . F . Z g a n j a r - P r i v . C o m m . (1986)
81
Data
Sheets
Nuclear
49,
1 (1986)
Sheets
Data
for
A = 145"
L. K. PEKER N a t i o n a l N u c l e a r Data C e n t e r Brookhaven National Laboratory U p t o n , N e w Y o r k 11973, USA (Received July
8, 1985; R e v i s e d A p r i l 11, 1986)
Abstract: T h e e x p e r i m e n t a l
nuclear structure data available through A summary of information obtained in various reaction and together with adopted level schemes.
Cutoff
Date: J a n u a r y
Organization
Research
J a n u a r y 1986 h a v e b e e n r e v i e w e d , decay experiments is p r e s e n t e d ,
1986.
of M a t e r i a l : See page v.
sponsored
by the
U.S. D e p a r t m e n t
of Energy,
under
contract
no. DE-AC02-76CH00016.
0090-3752./86 ~7.50 C o p y r i g h t ~ 1986 by A c a d e m i c P r e s s . Inc. All r i g h t s o f r e p r o d u c t i o n i n a n y f o r m r e s e r v e d .
A
145
DATA
NUCLEAR
Index
Nuclide
Data
Type
Skeleton Scheme for A
=
145
for
Nuclear
SHEETS
for
A
Data
Sheets
A
Levels
Drawinss Radiations
=
145
Levels
Tables Radiations
4
Adopted Levels
4
19
145Ba
t+SCs
fl- Decay
6
6
22
19
~45La
14SBa fl- Decay
9
9
24
22
145Ce
'4SLa f l -
8
8
26
24
l~Spr
Adopted Levels, Gammas 14~Ce f l - D e c a y a52Cf SF D e c a y 146Nd(d,3He) E=50 MeV
4 10
28
28 26 30
Adopted Levels, Gammas 145Pr f l - D e c a y 145pITI ¢ D e c a y tSSXe(laC,4n5') E = 4 9 - 6 0 MeV '44Nd(n,7) E=thermal 144Nd(n,'7) E = r e s o n a n c e 1 4 4 N d ( d , p ) E=12.1 MeV 144Nd(a,3He) E=66.2 MeV
4
145Nd
Decay
t0 3O 30 31
11 13
II 13
12
12
36
38 40
145Nd(n,n'7) 145Nd(p,p') Coulomb Excitation 146Nd(p,d) E=31 MeV 1 4 6 N d ( d , t ) , ( p o l d , t ) E=16 MeV t 4 6 N d ( a H e , a ) E = 2 4 MeV L46Nd(aHe,a~) E=26 MeV t45pm
145Sm
13
13
12
12
5
13
13
Adopted
5 14
14
Levels, Gammas
t44Sm(d,p),(d,p'y) 1 4 4 N d ( a , 3 n T ) E=37 MeV L 4 4 S m ( a , 3 H e ) E = 4 0 MeV 1 4 4 S m ( t 3 c , l e C ) E=72 MeV t45Eu
40
Adopted Levels, Gammas L45pm a D e c a y 145Sm e D e c a y 144Nd(SHe,d) E = 2 4 MeV 145Nd(p,n3,) E = 5 . 5 - 8 MeV t 4 6 N d ( p , 2 n T ) E=14.9 20.2 MeV
ta5Eu E D e c a y t44Sm(n,7) E - t h e r m a l
Adopted Levels, Gammas 145Gd t D e c a y (23 min) t45Gd £ D e c a y (85 s) 149Tb a D e c a y (4.13 h ) 149Tb a D e c a y (4.16 m i n ) 142Nd(6Li,3nT) E=32 MeV t 44Sm(p,p),(p,p'),(pol p,p') 1 4 4 S m ( 3 H e , d ) E = 4 0 . 3 3 MeV 1 4 4 S m ( a , p 2 n T ) E=50 MeV 1 4 4 S m ( a , t ) E=80 MeV
43 43 44 44 45
48 48
15 15
47 48 54 49 49
51
15 15
44
45 46
54
52 62 54 55 56
56 56 57 17
17
59 70 72
17
17 16
65
16
66 67 16
16
66 67 67
144Sm(VLi,eHe) E=52 MeV 145Gd
33 29 48 36 37 38
Adopted Levels, Gammas '45Gd IT D e c a y (85 s)
5
t4~Tb ~ D e c a y (29 s) 1 4 4 S m ( a H e , 2 n T ) E = 2 4 MeV
t8
18 18
t44Sm(a,3n~)
18
18
t45Tb
t45Dy ¢ Decay (13.6 s)
5
76
t45Dy
Adopted Levels
5
77
18
68 73 73
68 73 76 73 75 77
=
145
A =
145
DRAWING
1,
PART
I
NUCLEAR D A T A
SHEETS
~L ooe~
o,
c,
o o
Z ~o .r
e. ,~ e.
lllilDIInlilllill~Nl .,C
,,el~
,i,o
r
/i~ ,"~,
o,
i11'I
0
r~
$:
~:
i,,i'
:
III ,era
:
!
~,
~,
el
ce
~,
?
o
o
~
~
o~ ,r,
NUCLEAR D A T A SHEETS
DRAWING I ,
PART ~
A = 145
c~ ×
o'.
£
$: ,~:
o~, : 1', :,-, © g '
"
~"
II ÷
2~
)i ziz:
~',, ~: P
6~v
~
''
v ~...;c4
&
ltJJillJ l tl li l ljlijll
tt
e
? ~T e
~~ J
,
-4 w
l lIliIII'l[Il
~'-
II
ii
o
8
o
It
A =
145
DRAWING
2,
PART
1
NUCLEAR
DATA
SHEETS **aCs ~ -
Decay 88RoZT Part ! of g
7800
3({+
145 66Cs~o
o.o
Intensities: l(7+ce) per I00 d e c a y s of p a r e n t & Multiplet; u n d i v i d e d intensity g i v e n
O. 594 s
\
~-=77~)0130 %p--IO0
2 8 0 0 "-'
o'O'o,o.o,o . 1400 -
Ea-
I~_
Io= Z~
\
2 . 2 .~
6-7.~6 ~ )
1353.6
0.41 7
7.04, 9 )
1299,58
2
6.47 7 )
1240.69
4.5 5 4,2 5
6,05 7 ) 6,08 8 )
1137.85
0,12 2
7.63 9 ) '~-
1.4 3
6.6
1.6
1155.32
J3!~t_
..........................................................
1050.46
I )
1000 -
/ I.I 0.6 2.1 2.2 3,3 2,1
2 1 3 3 5 4
6.74 9 7.01 9 6.47 8 6.45 7 6,28 8 6.489
) ) ) ) ) )
~'o'2o' ~ . ~ ~ - ~ o'o'o" ~.~4~ • o , , . o . o . ~ ~-~ o~~ 4 e ~ . °'°'°'~ °'~ t, ,v " ~ , . . . . ~ . ^ ,
-o
~ ~0~?0.0~%~
. . . .
9~0.
872.27 s5,.47 836.33
--+..+-.~--~--
! 72~0 17
3.1 8
6.3 I )
2,0 3 2,6 4
6.53 8 ) 6.42 8 )
1.1420 3,1 5
6.799) 6.368 )
3.6 5
6.31 7 )
3.1 4
6,3e 7 )
7510 15 7510 t5
>1.5 6,2 8
<6,7 ) 6.11 7 )
7650 22
2.3 4
7350 17
500-
6.54
\ I - I I
(3 2 3/2+
l
I
\ 0,9 2
7.0 I )
0.23 ~8
7.6 4 ) \
7.4 12
6.1 2
9.4 12
6,0) 7
_~__
9 )
>6,o )
\ \
(3/2)+
,f
~ 3/3--'
\
5/2-
4.31 145
56Ba89
NUCLEAR
DATA
DRAWING ~ ,
SHEETS
PART
~
A =
t45
i'~Cs ~ - Decay 88RoZT
P a r t 2 of ~,
o.o
0.594
s
7800
i
\
145
55CSoo
0-=77g013o ~--|O0
2800
- 1400 \
I_l=
Io8 si
\
2 . 2 4.
~.-7-.'~
1383.6
0.41 7
7.04 9
1299,58
1.6 2
6.47 7
1240.69
4.5 6 4.2 6
6.05 7 6,08 8
0.12 2
7,63 9
1,4 3
6.6 I )
\~ ',~
1155.32 1137.85
~ .................................................................................................................................
~]~[.
1050.4.6
1000
1.1 2
6.74 9
872.27
0.6 I 2.1 3 2.2~
7.01 9 6.47 8
851.47
3.35
6.2
2.1 4.
6.457
6.46 ~
836,33 819.82
'~'oo~ -o
\+
~ k~" '."" _ . . . . .
. 795~97
•
785.54 753,43
721o
17
3.1 8
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2.03 2.64
6.538 6.428
\
I
5/2
" ' ' ' ~ ''~''
724,34
O' ~ ' 0 " 0
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672~39 " 663.25
I # ~ ¢ @ # 1.1420 3.15
2.23 7350 17
3.6 5
627.34
6.799 6.~8
611.1
= , i
6.527 6.31 7
~
2
~o,-,~, ~--,#~__
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566.66 547,13
:
491.86 7510 15
7510 15 7650 22
7770 22
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6,11 7 6.~ 9
0.9 2
7.0 1 )
0.23 18
7.6 4 )
8 2
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)-
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435.69
416.6
~ (3/2)+
319.79
~
277.11
--.~
175,36
112.445
~ 5/2-
m 148 56Basg
7
4.31
s
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A
=
145
DRAWING
NUCLEAR
3
DATA
SHEETS
~s
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°=
i iI
°:
I
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I
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NUCLEAR D A T A
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A =
4
*4SBa B- Decay 78PfO2,82ChZV Intensities: l(7+ce) per I00 decays of parent 5/2-
o.0
4.31
s
5000
i
145
5sBas9
0_=4950,t0
z/~-=IO0
2800 -2800
0'0"0'0" \ o.e,
2566,4
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-2000
-1500
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3.9 5
5.92 S
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=
o' ?
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7.358
0.223
7.268
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2.13
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6.359
973.6
~ ........
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922 ._4_.
827,0
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6.188)~---.
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45002
6.298) 6.088)
4570 20
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1,82
6.677)
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6,288)
9,4 12
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...........................................
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4"
--
A32...%.
598.9
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.
514.2 492.2
.
475.3
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4920 12 23 10
351.5
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65.9
g I%8
o.o
24.8
s
145
A
=
t45
DRAWING
NUCLEAR DATA SHEETS
5
145Ce ~- Decay 88RoZU,80Ya07 Intensities: l(7+ce) per tO0 decays of parent & Multiplet; undivided intensity given
26oo1 c3/~-~t45Ce~.~,.,,,--,oo =z~3o, \ ,o ~'
,7
o.o
3.o, , ~
1400 "J 1400 -
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10
NUCLEAR
DATA
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SHEETS
A =
14,5
=4Spr p - Decay 76Ja01 I n t e n s i t i e s : I(')'+ce) per tO0 d e c a y s of p a r e n t 1900
7('~+
~45 ~PrBo
o.o
E
5.084. /~
\
1700
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-
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1527,05
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937,05 920,72
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72,50
! t
t
11
'
14~ eoNdss
,
ftJ
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14-5
DRAWING 7
NUCLEAR D A T A
SHEETS
~44Nd(n,7) E = r e s o n a n c e 77McOg I n t e n s i t i e s : relative 17
14SNd(3He,aT) E=26 MeV 84Ra03 Intensities: relative
6200-
13'
6000Sn+1.628 Sn+1. 298 Sn+O.734
5000 -
4000 -
3000 -
2000 -
? 11/2-
~"
3/2+
)533.3
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11/~-
657,7
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72,5 0.0
72,4
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145 eoNde5
12
NUCLEAR D A T A
SHEETS
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A =
145
8 I
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O.
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l.$, "t~
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9
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DATA .
SHEETS
.
.
.
.
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666
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14
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o
NUCLEAR
DATA
SHEETS
DRAWING
tO
A
=
L+*Sm(d,p),(d,pT) 75Bo22,67Ch16
L
14~Nd(a,3nT) E = 3 7 MeV ??Ha04 Intensities: r e l a t i v e 17
S' 24
4027
11
3916
17 8
3783 3726
-4100
-4000
3596 t8
t
I 3558 (b
3506
9
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3369.7
25/2+
/ 3335 58 3
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3246 3183 1 3
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3018 2960
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2750 2724 2674 2661
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2629 2563 2512
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2429 2390 2349
4
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1
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i
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2488
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3
1
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2978.3 2931,6
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<13 ~' ~
3120.1 / 3118.5
. ~ " ....o.~.~" .,% ?
~eq
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2049.9
15/2+
2o02
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/ 1979
3 0.67 4.6 6
9/2-
3.19
1774, I
9-o
(1512)+
'I'
o
1706.0
9/23
1 . 25
1
1,26
o ~,--?
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1538.0
5
6.41
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6
6.44
13/2+
- 1500
1469.0 1423.0
( 15/2+ )
14 ns
1000 1
3/2-
2.13
893.6
500
,
3
6.82
7/2-
145 8zSm83
[45
82Sm83
15
I
145
A =
145
DRAWING
NUCLEAR D A T A SHEETS
Ii
MeV
14ZNd(aLI.3nT) E=3~ 80RaOt,8OBa01 Intensities: relative 5600
17
i~Sm(a,p~n?) E=50 ?gHa48 Intensities: relative
-
MeV 17
5154
29/2
5000 -
/ -~ 27/2+
4000 -
2 C
[,J
25/2+
4122.8
27/2+
4124
3976.3
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3977.7
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2
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J ,
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.................... --
7 2836.,
J 2813,5
17/2-
2573.6
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3'83.9
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1601.8
1000 -
490 ~ s
490
7/2+
329.4
3)9.6
O-
145 83Eusz
145 s3Euse
16
NUCLEAR
DATA
SHEETS
DRAWING J'(°Tb a
~ D e c a y ( 8 5 s) ?OEp02 Intensities: l(7+ce) p e r tO0 d e c a y s
**SGd
l(gTb a D e c a y (4.13 76HolT,74To07,67Go32
D e c a y (4.16 74To07
t2
A
rain)
h) - 6000
of parent
/
11/2-
748.7
85
= 145
s
- 5500
1[/2+ 145
0.0
- 5000
2 3 . 0 'rr'~r~
s4.Gdet 'V~-, ~ 4 . .
Q+=5050 ~o
~2 . . . . . 149 esTbs4
o.o
I(2+
t49 esTbs(
4 . 1 3 1% ~ . = = t5,8 ~4
le 'rr=n I[ 4.13 h ~.~-a=2 .2. tO-" 3
- 4500 - 4000 - 3500
Q==4078 a
Q~=40783
- 3000
- 2500 - 2000 - 1500 L -
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716.1
11/2-
( ¢.4 #
1000
1000
I__c log / t 1.2B 12 ~ - ~
- 500
~'~
7/2+
329.5
7/2+
329.5
s/2+
o
( 364~ 3
0.03 t ~ 0
)
%_ s{2+ t45
e3Eus3
( 3967 3
100
9)
s(2+ 145 o3EUsz
J45
03Eu82
17
0,0
( 3999 7 )
A =
145
DRAWING
NUCLEAR DATA SHEETS
13
8 I
I
I
I
I
i
o.% ,9
~
~"
"i~
"%"¢,
/ .~
O.o~
I
~. o~ m
0
.: ~.~
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<-=
<. ~<~.,,,%~
_
_
"%'7 di 7-I
r,
e. .e
?,
0~+
i=,
e,
A
A A
,Q, ,n
o. ,o
•.~
r-
oo
a: ~ o ="
~
.~
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r
<,.,
o Cu O'D"
0
"'e O.
~0
°%
£*
9. e . <'o6
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,
%
r~ .e©
wZ~
~
~..e_o¢ I
O g'~, I
ff I
e~
r
I - - 1
8
÷
q
I
I
8 o°
0
18
15455, r, ~~o 9 0 - - 1,
NUCLEAR
DATA
t4~Cs A d o p t e d Q(fl-)=7790 E(ievel)
130;
s(n)=4910
J~
0.0
3/2+
30
Levels
85Wa02.
Tt/z 0.594
15455, .r~_9 0 - - 1
SHEETS
Comments
s
% f l - = 1 0 0 ; % b - n = 1 3 . 8 8. p,=+0.784 4 (81ThO6). Q=+0.62 6 (81Th06). J~r: 7 9 E k 0 2 , a t o m i c beam magnetic resonance, 3/2[4223 Nilsson orbital ( 7 9 E k 0 2 ) f r o m a n a l o g y t o t4aCs. T l / 2 : f r o m 8 2 R a 1 3 ; o t h e r s : 0 . 5 4 s 2 (82DeZX), 0 . 6 0 5 s 3 0 ( 7 9 E n 0 2 ) , 0 . 5 9 0 s 2 0 ( 7 8 W o 0 9 ) , 0.811 s 21 ( 7 4 R o 1 5 ) , 0 . 5 6 3 s 2 7 ( 7 1 T r 0 2 ) . Delayed neutron emission probability=t3.8% 8 (recommended in 84Ma39); o t h e r s : 13.3% ( 7 9 R u Z R ) , 13.6% 10 ( 8 0 L u 0 4 ) , 13.3% 2 7 ( 8 0 R e Z R ) , 19.5% 16 ( 8 1 E n 0 5 ) , 12.2% 9 ( 7 9 R i 0 9 ) , 12.5% 3 0 ( 7 8 C r 0 3 ) .
13
"y(t45Ba) f r o m
t45Cs
fl-
Decay
86RoZT
M e a s u r e d : 7, 7 7 ( 8 6 R o Z T , 8 3 D e Z I , 8 2 D e Z X , 7 8 S c Y Y ) , 7 ( 8 2 R a t 3 , 7 9 B o 2 6 , 7 3 W u 0 3 ) , ce ( 8 6 R o Z T , 8 2 R a t 3 ) , -r~(O) ( 8 6 R o Z T ) , d e l a y e d neutrons (81En05,80LuO4,79RiO9,77ReOS,77Re06). Delayed neutron emission probability=13.S% 8 (recommended i n 8 4 M a 3 9 ) ; o t h e r s : 13.3% 18 ( 7 9 R u Z R ) , 13.6% 10 ( 8 0 L u O 4 ) , 13.3% 2 7 ( 8 0 R e Z R ) , 19.5% 16 ( 8 1 E n 0 5 ) , 12.2% 9 ( 7 9 R i 0 9 ) , 12.5% 3 0 ( 7 8 C r 0 3 ) . 30 (77Re06), Average delayed neutron energy=460 IT n o r m a l i z a t i o n : I(175.47)=19.8% 24 (86RoZT). E f l - ( 1 9 8 . 9 3 l e v e l ) = 7 7 7 0 2 2 0 f r o m 8 2 P a 2 4 ; o t h e r : 6 9 4 4 180 ( 8 1 D e 2 5 ) . with 7950 80 observed in 82Pa24. E f t - ( 0 . 0 l e v e l ) = 7 7 9 0 130, 7 3 5 8 70 ( 8 1 D e 2 5 ) c o n t r a d i c t E: frorr~ f17 ( 8 2 P a 2 4 ) ; o t h e r s : 7 4 1 0 120 ( s i n g l e ) , 6 9 4 4 180 ( c o i n 1 7 5 7 ) , 6 6 8 7 2 5 0 ( c o i n 11230, 6 1 5 9 3 0 0 ( c o i n 756-y) (81De25); 5 9 0 0 5 0 0 f i t ( 7 4 W u 0 2 ) . Ifl: w e a k fl(g.s.) b r a n c h (86RoZT,82Ra13) disagrees with the results of comparison of single fl-spectra and fl-spectra f r o m f17 ( 8 1 D e 2 5 ) . E(level)
E7 $ 38.24 x84.74 86.26 x87.34 105.94 112.46
121 x143 156 164 171 175
454.66
01 94 T 3 34 64 97 36
I75#
Mult.§ 40 18
198.93
1.79 7.67 5.82
11
M1
672.39
2.28 0.79
112.46
54.11
4 9 72
MI+E2
319.79 611.1 277.11 627.34 175.36
0.35 24 10.5 3 2.38 31 7.49 59 4.32 27 I00.0 16
3.35 42 54.7 87
207 214 217 227 231 238
319.79 491.86 785.54 547.13 724.34 785.54
16.20 1.16 <1 3.38 1.84 7.90
32 21 84
M1,E2
416.6
28.92
29
E2
240.97 246.92 x249.74~ 255.94 260.29 277.12
566,66 14 454.66 435.69
277.11
Comments
1.531
Mult.:
1.169
Mult.: a(K)exp=0.92 a ( L ) e x p = O . 1 2 8 12 a(K)exp=0.79 24, a(M)exp=0.033 10
0. 272
611.1 198.93
36 16
2.0
E2
194.56 198.93
12 52 72 36 92 41
~
Mt
0.147
E1
0.031
K/L=5.71
on
next
(footnotes
19
41,
8
Mult.: ~ ( K ) e x p = 0 . 1 O 7 20, a(L)exp=O.Ol4 4 (86RoZT); a(K)exp=0.130 40, c~(L)exp=0.02O 6 (82Ra13). 20 (86RoZT). Mult.: a(K)exp=0.053
Mult.: a(K)exp=0.126 30 (86RoZT), 33 (82Ra13). a(K)exp=O.ltl 12 ( 8 6 R o Z T ) , Mult.: a(K)exp=0.988 ~(K)exp=O.095 28 (82Ra13).
0.093
pa~e
12,
(86RoZT); a(L)exp=0.138 (82Ra13).
M u l t . : c t ( K ) e x p = 0 . 1 6 9 16, a(M)exp=O.0074 8 (86RoZT); a(K)exp=0.170 50, a(L)exp=0.026 (82Ra13).
2.46 6 5.7 5 12 2.49 0.86 20 2.14 9 Continued
(82Ra13).
at
end
of
table)
1451~o
o
55,~90-~
NUCLEAR
7(14~Ba) f r o m
s>t 279.46 289.2 293.2 304.5 307.95 317.83 319.84 323.34 x325.481 x328.85 x335.04 341.74 343.44 348.21 x352,101 360,34 367.71 369.18 378.93 383.8 391.15 395,14 416,52 419.74 429,07 430.27 434.71 435.63 435.72 439.6 444.22 452.03 454.28 454.77 455.23 464.82 473.76 476.26 481.34 487.18 492.08 500.35 503.17 517.24 525.83 528.38 547.06 548 x549 552 554 559 566 571 574 578 586 595 597 611 620
17~#
454.66 836.33 491.86 418,8 724,34 753,43 319,79 435.69
4.01 50 I . 0 0 12 12 2.18 2.38 18 1.98 9 2.97 23 7.55 22 5 . 17 2? 1.'/4 1.87 23 2.38 0.56 13 4,17 15 I. 06 22 2.76 I . 0 0 18 5.34 23 0.87 9 8.58 33 0.85 8 1 . 10 2 7 5.83 59 5 . 14 77 1 . O0 2 3 1 . 32 3 6 5.78 23 5 . 74 39 29.02 41 10.20 90 11 4.5 0.60 6 45 8.80 8.03 48 10.60 58 t . 40 35 t . O0 2 2 1.02 18 1 ,67 16 1.05 14 6.92 24 14.05 45 3.09 27 I. 32 2 2 0.95 11 3 . 68 2 3 8.69 11 23.62 41
4 98
454,66 663.25 547.13 42
99 39 t 9 92 73 86 7 06 05 13 61 46 48 16 61 @
637.46 645.28 652.83 660.89 663.49
Ell(level)
795 566 785 795 1137 566 672 416 836 627 1155 547 435 611 1050 1116 627 566 454 1240 663 1137 795 1353 663 491 819 1050 1353 724 1155 547
97 66 54 97 85 66 39 6 33 34 32 13 69 1 46 61? 34 66 66 69 25 85 97 6 25 86 82 46 8 34 32 13
724.34 872.27 753.43 672.39 566.66 1137.85 851.47 753 43 785 54 872 27 7 9 5 97 611 1 7 9 5 97 819 82 8 3 6 33 819 82 851 47 836 33 6~3 25
DATA
t45Cs ,8 7 Decay
145po
SHEETS
55,~90
86RoZT ( c o n t i n u e d )
a
Mult.§
Comments
E1
0.0045
Mult.:
a(K)exp=0,0048
6 (86RoZT).
(MI)
0.017
Mult,:
a(K)exp=0.0364
47.
El
0.0027
Mult.: ce(K) was not observed a n d expected for M1 or E2.
5.75 92 12.0 14 I .61 38 5.21 16 4.46 12 3.71 15 7.80 27 0.69 18 7.6 24 1 .83 33 1 , 35 3 0 5.45 29 2,60 @ 42 I . 4-0 @ 4 2 7.81 32 2.54 50 1 .32 28 1 .88 14 1 . 9 8 15
Continued
on
next
pa6e
Ifootnotes
20
at
end
of
table)
is less than
_,")
.~
145~ 55~90--o o
NUCLEAR
~/(t45Ba) from E3,~ x 6 7 1 9 9 ~ 46 683 44 688 48 693 09 700 62 706 63 7 2 1 13 724.26 739 1 753 26 7 5 9 51 785 33 795 9 8 0 6 58 8 1 9 68 x 8 3 0 25 ~ 78 851 68 8 7 2 13 875 03 8 9 8 92 920 25 x944 68 x 9 8 0 39 t 56 1034 02 1066 38 1101 12 1177 70 1240 30 x1414 45 x1715 59 x 1 7 3 6 98 ~ 28 x1915 13 41 x1976 94 x2024.33 x2175.59 x2322.271 55
E(level)
1137 1299 1240 1155 819 1137 724 1155 753 872 785 795 1353 819
85 58 69 32 82 85 34 32 43 27 54 97 6 82
851.47 872.27 1050.46 1353.6 1240.69
1353.6 1240.69 1299.58 1353.6 1240.69
DATA
14~Cs p- Decay
171# 0.73 6.34 t . 15 1 .56 3 . 92
2.07
3? 13 15 32 18 30 31 22 31 23 6 14 27 16
5 . 12 8.1 4,58 11.22 2.41 0.37 1 .26 3.73 1 .78 1.05 1 .21 15 1 . 6 8 25 1 . 2 0 18 1 . 2 1 41 0.85 13 I . 0 5 26 2.69 22 2.65 3.18 18 0.94 21 1 76 59 1 08 2 1 4 7 25 2 8 4 37 429 6 8 13 8 96 4? 3 68 57 2 95 39 482
Reported only in 83DeZI, 82DeZX. F r o m 86RoZT. § a(K)exp were n o r m a l i z e d to a(K)exp for standard 3,'s. # For absolute intensity per 100 decays, m u l t i p l y b y 0.198 24. @ Multiplet; u n d i v i d e d intensity given. 3' ray not placed in level scheme.
21
SHEETS
86RoZT ( c o n t i n u e d )
145po 55~o90--~
q
14513~56~89-
NUCLEAR
1
145Ba L e v e l s
from
DATA
SHEETS
145Cs fl-
Decay
14513o89-156
86RoZT
Q ( f l - ) = 4 9 5 0 110; S ( n ) = 4 2 4 0 140; s ( p ) = 1 1 9 2 0 130 85Wa02. M e a s u r e d : 3`, 3`3` ( 8 6 R o Z T , 8 3 D e Z I , 8 2 D e Z X , 7 8 S c Y Y ) , T ( 8 2 R a 1 3 , 7 9 B n 2 6 , 7 3 W u 0 3 ) , ce ( 8 6 R o Z T , 8 2 R a I 3 ) , T3`(0) (86RoZT), d e l a y e d n e u t r o n s (81En05,80Lu04,79Ri09,77Re05,77Re06). Delayed neutron emission probability=13.8% 8 (recommended i n 8 4 M a 3 9 ) ; o t h e r s : 13.3% 18 ( 7 9 R u Z R ) , 13.6% 10 ( 8 0 L u 0 4 ) , 13.3% 27 (80ReZR), 19.5% 16 ( 8 1 E n 0 5 ) , 12.2% 9 ( 7 9 R i 0 9 ) , 12.5% 30 ( 7 8 C r 0 3 ) . Average delayed neutron energy=460 30 ( 7 7 R e 0 6 ) .
J~
E(level) 5/2-
0.0
Tj/2 4.31
s
Comments %#-=100. J~r: h f s ( 8 3 M u 1 2 ) , N i l s s o n a n a l y s i s o f /~. / ~ = - 0 . 2 7 2 36 ( 8 3 M u 1 2 ) . Q = + I . 1 5 10 ( 8 3 M u 1 2 ) . TWz: f r o m 78Wo09; o t h e r s ' . 3.85 s 12 ( 7 9 E n 0 2 ) , 3.79 s 19 ( 7 6 A m Z W ) , 4.2 s 5 ( 7 4 G r 2 9 ) . J1r: ~/3`(0), T to 5 / 2 is MI+E2. JTr: 3'T(O), 3` to 5 / 2 is E2. JTr: T3`(O), T to 5 / 2 is M1.
16
3/2-
112.46 175 36 198 93 2 7 7 11 3 1 9 79 416 6 435 69 4 5 4 66 491 86 5 4 7 13 566 66 611.1 627.34 663.25 672.39 724.34 753.43 785.54 795.97 619.82 836.33 651.47 872.27 1050.46 1116.617 1137.85 1155.32 1240.69 1299.58 1353.6
1/2512(3/2)+
J~r: Jzr: J1r: JTr:
5/23/2+ (3/2)-
3` 3` 3` T
to to to to
3/2I/25/25/2-
is is is is
5/2-
is El,
(5/2)+
J~r: ~/ to
1/2,5/2
J~: 3`3`(0).
5/2
J1r: 3`3`(0).
5/2
J~: -/3`(6).
1/2,5/2 +
J~r: 3`3`(0). Jlr: 5' to ( 5 / 2 ) +
3,(145La)
from
t45Ba
El, strong 3` to 5/2-, 3,.),(0). E2, 3`3`(0). El, log ft=6.2 via 3 / 2 + parent, MI,E2; strong 3` to 1/2-. no
65.9
E(level) 2
65.9
I T S@
Mult.
31
if
~
MI
3' to
1/2-,
log f t = 6 . 3
fl-
Decay Others:
B(M1)(W.u.)=l.79* 10 -3 40. M u l t . : T's f r o m 189.0 l e v e l to g.s. a n d 65.9 l e v e l comparable IT a n d t h e r e f o r e probably similar M u l t , : K / L = 1 0 3, ¢ x ( K ) e x p = l . 3 4 (86RoZU). IT: IT=17.1% 21 (86RoZT). M u l t , : K / L = 8 . 3 14 (86RoZU).
189 .0 96 .6
43 100
M1 M1
123.2 162.3
2 2
189 .0 351 5 514 2 237 9 189 0 237 9 598 9 351 5
7 22 <22 7.6 11 6,8 3 6 1.0
if if
MI M1
0.606 0,280
Mult.:
K/L=5.3
if
M1
0,184
Mult.:
a(K)exp=0.18
ET,IT: o b s e r v e d
on
next
page
parent.
Comments
2 2
Continued
3/2+
69WiZX, 70OsZZ, 71Ho29.
91.9 96.6
171.6# 2 189.5 2 237.9# 2 247.5 § 254.9 2 x258.5#
1.398 1.211
via
78Pf02,82ChZV
a 3.65
-y to 1/2-.
is M1,E2.
M e a s u r e d : 3', 3`3`, 3`(t), ce, fl, f13` ( 7 8 P f 0 2 ) , 3`, 3`3` ( 8 2 C h Z V ) . IT n o r m a l i z a t i o n : I(96.63`)=17.1% 21 (86RoZT). E3`$
4.0 s 5 ( 7 8 P f 0 2 ) ,
(footnotes
22
at
12, a ( K ) e x p = 0 . t 8
4 (86RoZU).
only
end
in
of
78Pf02.
table)
4 (86RoZU).
have mult.
145no 56~89
_ o,~
NUCLEAR
7(Z4~La) f r o m ET~ 286.2 303.2 313.6# x316.3# 325.2 334.4 x343.7§ 351,8 361.1# 378.8 x400.O# 407.7§ 417.8 x427.2# 477.8 481.5 492.7# 532.8 544.2
E(level) 2 2 2 2 2
514.2 827.0?
2 3 2
t $ § # @ x
351.5 598.9 475.3 922.49
12 <12 18 0.8 3.4 12 2.2 6 10 2.8 24 <24 2
922.4? 514.2
2 2 2
2 2
571.97 578.6 590.8# 598.8 x610.9# x643.6# x655.3# 668.2§ 683.8?
475.3 637.5? 492.2 827.0?
[7~@
3 2 2
§
544.0 973.6 492.2 598.9 544.0 734.0 637.5? 922.4? 1176.87 827.0? 598.9
734.0 922.4? I176,8?
4 25 3.7 8.2 0.7 12 12 29 <29 <9 9 6 1,1 12 5.3 2,3 5 2 <7 7
DATA
*45Ba f l - Decay E,~ 701 730 734 x747 784 x816 844 x849 x944 x1066 1110 x1255 x1263 x1268 x1516 x1692 x1714 x1776 x1846 x1950 1968 2021 x2033 2052 x2065 x2185 x2190 x2456 2501 x2515 x2565 x2708
0§ 6§ 1 2 7# 5 5# 5 3 5# 6# 3# 4§ 2# 3# 7# O# 5# 1# 2# 5# 9# 6 5 6# 4 5# 1# 8# 3# 0 6# O# 7#
145~o 56 Jo¢~89 _ o
SHEETS
78Pf03,82ChZV ( c o n t i n u e d )
EIlevel ) 1176 827 734 973
8? 0? 0 6
1033
5?
1176
8?
2566 2566
4 4
2566
4
2566
4
17~@ 3 8
4 1.3 0.6 1.1 1.0 2.7 1,9 3.3 7 1.0 0.5 0.4 2.6 2.1 2.3 1.1 2.2 0.6 1.0 2.2 0.8 0.9 0.6 1.6 1.1 2.5 0.7 1.3 0.8 0.4
a(K)exp were n o r m a l i z e d to a(K)(M1)=l.035 for 96.67, ce(K) a n d ce(L) are f r o m F r o m private c o m m u n i c a t i o n of 8 2 C h Z V except w h e r e noted otherwise. Observed only in 78Pf02. Observed only in 82ChZV. For absolute intensity per I00 decays, m u l t i p l y b y 0.171 21. 7 ray not placed in level scheme.
23
86RoZU.
145r_57~aa8_1
NUCLEAR
145La
Levels
from
DATA
145Ba
fl-
Q ( f l - ) = 4 1 2 0 90; S ( n ) = 6 2 1 0 140; S ( p ) = 6 4 0 0 120 85W202. M e a s u r e d : "y, 7"Y, "y(t), ce, fl, fl~ ( 7 8 P f 0 2 ) , "y, 7 7 ( 8 2 C h Z V ) . E(level ) 0. 0
65.9 96.6 189.0 237.9 351.5 475.3 492.2 514.2 544.0 598.9 637.5? 734.0 827.0? 922.4? 973.6 1033.57 1176.87 2566.4
9 ns
78PfO2,82ChZV
Others:
69WiZX, 7 0 0 s Z Z , 7 1 H o 2 9 .
Comments 20
s
145L288-157
Decay
T, /~ 24. 8
2 2 2 2 3 3
SHEETS
2
T l / a : w e i g h t e d a v e r a g e : 2 4 . 2 s 3[ ( 7 8 P f 0 2 ) , 74Gr29. ~/~-=i00. T i / 2 : f r o m 252Cf SF d e c a y (74CIZX).
25.2 s 26
(77Sk02);
others:
79En02,
3 2
2 5
7(145Ce)
from
t45La
fl-
Decay
78Pf02
M e a s u r e d : 7 ( 7 7 S R O 2 , 8 2 C h Z V , 7 8 P f 0 2 ) , ~/7 ( 7 6 P f 0 2 , 7 7 S k 0 2 ) , fiT, XT(t), ce, f l - ( 7 8 P f 0 2 ) ; f13' ( 7 6 S t 0 3 ) ; see a l s o 7 6 L o Z T , 7 4 A r 1 7 . M1 f o r l o w e n e r g y 7's: f l - f e e d i n g is f r o m b a l a n c e o f I(~/+ce) w i t h I ( 3 5 5 . 6 7 ) = 3 . 6 3 % 6 7 a s s u m i n g 4 8 . 2 , I18.2, 164.1, 169.8. 7 8 P f 0 2 d i d n o t s e e I013' a n d 1 6 0 7 a s s i g n e d b y 69WiZX to 14SLa f l - d e c a y . IV n o r m a l i z a t i o n : I(355.6~)=3.83% 67 (66RoZT). E f t - ( 0 . 0 l e v e l ) = 4 1 0 0 100 f r o m 7 8 P f 0 2 ; o t h e r : 4110 150 ( 7 8 S t 0 3 ) , lfl-(0.6 level)=15 5 from 78Pf02. E~ ~ 48.2 64.3
E(level) 5 2
70,0 I17,I?
2
116.2 164.1 169.8 x234.7 238.0 266.5 291.4 312.0 327.4 355.8
2 2 2
118.2 64.3
7O.O
l'y~t
Mult.
a
38 27
i f MI E2
lO.O 10.45
8
283
if
3 35
M1
234.1
2 2 2 2 2
118.2 234.1 234 I 355 522 355 1021 959 355
9 2 9 5 5 9
x360.5
2 2
377.0 387.9 403.6
2 2 2
447.2 505 7 522 2
430.2 435.5 447.4 452.0
2 2 2 2.
664 505 447 522
3 7 2 2
95 71 84 15 26 4 28 4 20 iOO 25 34 17 25
if if if
Comments E'y,IT: o b s e r v e d in 77Sk02. l'y: f r o m 6 6 R o Z U . Mult.: K/L=O.8 2 (78Pf02), E7: f r o m c e ( K ) , ce(L), ce(M) o b s e r v e d spectra (78Pf02). B ( E 2 ) ( W . u . ) = 7 6 18. Mult.: f r o m Jvr for 70.0 a n d g.s. Observed only in 77Sk02, supported 77Sk02.
by
in
IT: I'),=3.83% 6 7
77 f r o m
76Pf02,
(86RoZT).
Suggested p l a c e m e n t contradict with observed strong coin with 1657 a n d 117%
on
Ce
0 746 0 298 0 271
M1 MI M1
43 44 84 14 Continued
only
next
page
(footnotes
24
at
end
of
table)
in 77Sk02
145~
57~88-2
NUCLEAR
7(14~Ce) f r o m
E(level)
E7t x464.1 484.4 505.2 515.4 591 606 632 644 659 664 668 671 087 721 730 x743 764 x774 786 799 840
0 1 9 8 0 0 2 8 9 5 6 5 1 3 5 5 7?
846.5 883.5 889.6 895.3 932.0? 959.9 1021.5 1036.9 1050.8
1222 1238 1596 1819 1922 1946 2087 2155 2204 2289 2295 2306 x2351 2359 2377 2475 2479 x2526 2542
2 2 2 2 2 2 2 2 2 2 2
840 505 632 2205 708 840 632 708 1690 664 1690 671 1690 840 1690
5
2359.8
2 2
1021.5 1155 840 959 1510 1001 959 959 1001 1166 959 1021 1155 1284 2205 2377 1946 1596 1889 2156 1946 2156 2205 2156 2205 2359 2359 2377
2 2 2
2 2 2 2 2 2 2 3 3 3
1 0 5 5 4 1 8?
5
2
3 3 3 5 5 5 3 5 5 5 5 5
7 0 9 8 4 4 1 7 2 8 6
3 3 3 3
2359.8 2377.1 2543.9 2543.9 2606.9
5 7 6 6 7? 5 6 7? O? 3 O? 8 O? 5 O?
2 5 5 8 9 5 5 9 1 5 5 2 9 6 1 17 5? 5 0 17 0 6 0 6 8 8 1
DATA
SHEETS
145La fl- Decay
175 8 19 45 14 <14 14 25 38 44 10 13 8 48 20 20 20 38 16 16 45 17 <14 1~ 8 22 26 13 <74 74 6 36 21 38 <38 10 23 31 81 17 23 <22 22 25 22 11 11 14 15 36 16 13 20 8 19
t From 78Pf02 except where noted otherwise. $ For absolute intensity p e r 100 d e c a y s , multiply x 7 ray not placed in level scheme.
by
0.0383
25
67.
78Pf02 ( c o n t i n u e d )
5 7 ~ 8 8 - ~o
1451~
145~
58~e87-1
NUCLEAR
145Ce Levels f r o m
DATA
SHEETS
145~ 58~e87-1
14~La fl- Decay
78Pf03
Q ( f l - ) = 2 5 3 0 50; S ( n ) = 4 7 3 0 50; S ( p ) = 9 5 5 0 120 85Wa02. M e a s u r e d : 3` ( 7 7 8 k 0 2 , 8 2 C h Z V , 7 8 P f 0 2 ) , 3`3` ( 7 8 P f 0 2 , 7 7 8 k 0 2 ) , f13`, X3`(t), ce, f l see a l s o 76LoZT, 7 4 A r 1 7 . f l - f e e d i n g is f r o m b a l a n c e o f I(3`+ce) w i t h I(355.83`)=3.83% 67 a s s u m i n g 48.2, 118.2, 184.1, 169.8.
E(level)
Jw
0.0
TI/2
(3/2-)
3.01
min
(78Pf02); MI f o r
/Y3` ( 7 8 S t 0 3 ) ; low
energy
3`'s:
Comments 6
J~r: log f t = 4 . 9 4 to 787.1 l e v e l i n 14~Pr is c o m p a t i b l e only with configuration=(v 3 / 2 1 " 5 3 2 ] ) f o r Z45Ce g.s. a n d configuration=(~r 5 / 2 [ 5 3 2 ] ) f o r L45Pr 787.1 l e v e l . Tl/2: f r o m 80Ya07; o t h e r s : 2.78 r a i n 8 ( 7 9 T a 1 7 ) , 2.98 r a i n 15 ( 7 8 P f 0 2 ) , 3.20 r a i n 24 (81Eb01), 3.1 r a i n 2 ( 6 0 W i l 0 ) , 3.0 r a i n ! ( 5 4 M a 0 7 , 6 5 H o l l ) ; s e e a l s o 7 4 G r 2 9 , 70OsZZ, 69WiZX.
%fl-=lOO. 64. 70 118 234 355 447 505 522 632 664 671 708 840 959 1001 1021 1155 1166 1284 1510 1596 1690 1889 1946 2156 2205 2359 2377 2543 2606
3 0 2 1 9 2 7 2 6 3 8 77 5 5 9 5 2 1 9 8 5? 0? 5 1? 0 6 8 1 9 95
13
2 2 2 3 2 2 2 3 3 2 2
ns
3
Ttl~:
from
78Pf02.
3 2 2
4 4 5 4 5 4 3 4 5 6 19
fl- r a d i a t i o n s
from
145Ce fl-
Decay
86RoZU,80Ya07
M e a s u r e d : 3' ( 8 6 R o Z U , 8 0 Y a 0 7 , 7 9 T a l T , 7 8 P f O 2 , 7 7 B j O 2 , 7 2 0 h 0 8 , 6 7 H o 1 9 ) ; 3`7 ( 8 0 Y a 0 7 , 7 9 T a l T , 7 8 P f O 2 , 7 7 B j O 2 , 7 2 O h 0 8 ) , f13` ( 8 0 Y a 0 7 , 7 8 P f 0 2 , 7 8 S t O 3 ) , f l - ( K × r a y )
(81Eb01),
fl
(8OYa07). Analysis of fl (67Ho19,78Pf02,80Ya07) a n d f13` (78St03,78Pf02,80Ya07) suggests w e a k or no fl to g.s. a n d levels <787 contrary to strong fl to 62.66 level (Efl=2349 10 (24%) (in fl-(K x ray) reported by 81EbOl). Eft-
E(level)
1270 1420 1620 1670 1715
100 50) 200
2530
50)
1" F o r
50) 50
fl-
1210.7 1110.6 845.9 859.7 787.3 0.0
intensity
per
Ifl-t 18.4 3.5 3.3 0.9 66 8 11
22 5 4 4
11
100 d e c a y s ,
Log
It
5.06 9 5.90 9 6.22 8 6.8 2 4.97 8 > 7 . 6 TM
multiply
by
Comments Eft-: f r o m
81Eb01; o t h e r s :
Eft-: f r o m
78Pf02,
1464
200
(78Pf02),
1370 150 ( 7 8 8 t 0 3 ) .
788t03.
Eft-: f r o m 7 8 P f 0 2 ; o t h e r s : 1762 103 (81Eb01), 1800 100 (80YaO7), 1715 100 ( 7 8 8 t 0 3 ) . Ifl-: f r o m b a l a n c e o f I(3`+ce) f o r e a c h l e v e l . F r o m s y s t e m a t i c s for unique fl t r a n s i t i o n s log f t ~ ' t ~ 8 . 5 a n d t h e r e f o r e Ifl~l%. 1.00.
26
15485. . ~ . . 8 7 _ o~.,
NUCLEAR
7(*4~Pr) 17 normalization: E7 t$
E(level)
62.66
62.66
x125 .56 126 58 1 8 9 41 2 0 8 08 2 3 2 47 x 2 5 0 13 x 2 7 8 52 2 8 4 92 x 3 0 4 77 347 45 3 5 1 17
189.33 189.33 555.0 787.3
347.52 347.52 351.17 1210.7
423 436 439 492 499 512 x540 554 x595 x598
77 14 86 27 15 29 04 74 82 03
1210.7 787.3 787.3 555.0 845.9 859.7 555.0
787,3 x634.38 655.85
@
670.51 724.23 x743,71 x756.70 759.77 x765.14
845,9 1210.7 859.7 787.3
1110.6
I(724.237)=59%
3.6
0
4
6
1110.6 1110.6 1210.7 1210.7
MI
5.07
17: f r o m 86RoZT; o t h e r s : 21.0 I0 ( 7 9 T a 1 7 ) , 26 ( 7 8 P f 0 2 ) , 14.1 14 ( 7 7 B j 0 2 ) ; h o w e v e r , 8 0 Y a 0 7 r e p o r t t 7 = 4 6 3. Mult.: a ( e x p ) ~ 4 (78Pf02) if all o b s e r v e d x r a y s from conversion o f 62.68?.
4
3
0 21 2 32 0 36 0283 0 25 0835 0 21
I7=7.94
9 (86RoZT) a n d
0,026
E7,I7:
from
80Ya07;
Mult.: f r o m
a(K)exp
observed
only
El
0.0017
17: f r o m
4 1 1 1 3 5
E7,17: was
86RoZT;
other: 17=0.79 5 (80Ya07),
observed
only
in 80Ya07.
I
2
16 12
5
1 53 0902
2
0
35
0
23
I 1 3
1 60
8 0 Y a 0 7 , 77Bj02.
(not given) (86RoZU).
E%17:
observed
only
in 80Ya07.
4625 0 18
in
2
15 3 49 28 29
with
are
7(1)/7(2)=1.22 (77Bj02,80Ya07), 17: doublet with 17=7,94 9 (86RoZT) and 7 ( 1 ) / 7 ( 2 ) = 1 . 2 2 (77BjO2,BOYa07). Mult.: f r o m a(K)exp (not given) (86RoZU),
2
82
0 0
I7: d o u b l e t
M1
0.78 I 100.0 II 0,II 4 2,75 4 1.14 I 1.15 ! 3
86RoZU,80Ya07
Comments
5
1 . 64 @
x773.04 782,94 786.64 x831.35 x834.89 859.54 863.3 x932.35 xi009.50 x1032.13 1046.5 1110.60 x1118.83 1148.01 1210.78 x1248.28 x1370.51 x1432.10 x1436.28
859.7 1210.7
25
5.75 6 1.86 2 10.1 II 2.15 2 0.44 2 2.1 1 0.23 3 0.53 1 0.44 i 0.50 I 0.5 I 0.58 1 1,64
Decay
58',..e87-
Mult.
0,23 I 1.06 2 1.47 2 1.67 2 4.16 5 0.22 2 0.30 1 13.03 14 0.22 1 1.3 2 4,4 5
x765.69
845.9 787.3
14SCe f l -
145~
SHEETS
7 (78Pf02).
17 iS§ 22.13
from
DATA
20
t F r o m 86RoZU e x c e p t w h e r e n o t e d o t h e r w i s e . $ 7's: 4 6 7 . 5 2 (1.5 1), 1183.1 3 ( 0 . 4 6 5), 1294.3 3 ( 0 . 4 9 4), 1347.0 o b s e r v e d o n l y b y 8 0 Y a 0 7 ; 911.07 o n l y b y 7 8 P f 0 2 . § For absolute intensity p e r 100 d e c a y s , m u l t i p l y b y 0.59 7. @ Multiplet; undivided intensity given. x 7 ray not placed in level scheme.
27
6 (0.12 2), 1 4 7 6 . 4
4 (0.37
3)
were
~
145D591I'86--I
NUCLEAR
.
DATA
145Pr Adopted Q(#-)=1805 7; S(n)=6947 J~
E(level) O.O
62.66
8; 8(p)=6483 8
5.984
4,0
5/2+ (5/2)+
347.52
(3/2+)
85Wa02.
Comments h
ns
154 95 ~D1. 8 6
Levels
T,/2
7/2+
189.33
SHEETS
10
~,~-=1oo.
Jvr: L = 4 i n (d,SHe), log f t = 6 . 7 t o 5 / 2 - . T I / z : f r o m 80Ge11; o t h e r s : 5.98 h 2 ( 6 4 H o 0 3 ) , 5 . 9 5 h 7 ( 5 4 M a 0 7 ) , 5 , 8 8 h 10 ( 6 0 A 1 3 3 ) . T l / z : f r o m Z~ZCf 8F d e c a y (74CIZX). J~r: L = 2 i n (d,ZHe), ? t o 7 / 2 + is M1. Jvr: L = 2 in (d,3He), c o m p a r a b l e I? to 7 / 2 + a n d 5 / 2 + suggest their similar multipolarity. J~v: ? to 7/2+ is m u c h w e a k e r than ? to 5/2+ as m a y be expected E2 versus Mt transitions.
16
351.17 787.3
7/2+ (5/2)-
845.9
(3/2)+
555.0
859.7 960
J~v: L=4 in (d,SHe), strong 7 f r o m (5/2)-. J~r: 7 to 5/2+ is El, log ft=4.94 f r o m t4SCe g.s. is compatible only with configuration=(Ir 5/2['532]) for 787.3 level in 14SPr a n d configuration=(u 3/2['532]) for i45Ce g.s.; L=(1) in (d,aHe) contradict with J = 5 / 2 - a n d with observation of strong 232.47? to L=4 level 555.0. Jvr'. L = 2 i n (d,3He), n o ? t o 7/2+. J~r: L = ( 4 ) i n (d,3He). J ~ : L = 2 i n (d,SHe). E ( l e v e l ) : 1090 i n (d,SHe) ( 8 1 V a Z J ) ; 1 0 8 4 i n ( d , 3 H e ) ( 7 8 S a Z P ) . parent, 7 to (5/2)is M1, ? t o 7 / 2 + J~r: l o g f t = 5 . 0 v i a ( 3 / 2 ) -
(7/2+,9/2+)
1110.6
5/2+,3/2+
1210.7
(5/2)-
1244" 1333 1493
14Spr Adopted E(level) 62.66 189.33
347.52 351.17 555.0
Mult.
E7 62.66 126.58
189.41 264.92 347.45 351.17 208.08 492.27 554.74
787.3
845.9
232.47 436.14 439.86 598.03 724.23 788.64 499.15 655.85 782.94
859.7
1110.8
1210.7
?
100 91
512.29 670.51 659.54 759.77 1046.5 1110.60 351.17 423.77 655.85 863.3
100 72 1 100 1 100 ! 10 2 lOO 77.7 9 100 1 24.6 5 4 16 5 1 86 2 t O 1 11 0 5 1 1 0 0 0 11 0 28 1 1266 47 ? 1
MI
? radiations Comments
oL
5.07
B(MI)(W.u.)=O.O0368
E1
1 4
33.6 4 1 0 0 13 24.7 2 4.5 4 I00 1
2O 31 ?
3 7 3
9 1t 203
1148.01
100
1
1210,78
8
4
T Multiplet; u n d i v i d e d
M1
0.026
1
1
intensity given.
28
150.
g.s.
for
-
I
145D~ --2 59=*86
NUCLEAR
7(14~Nd) f r o m
67.100 95 72.500 4 91.1 2 130.95 15 242.913 26 262.886 9 262.94 303.192 9 318.666 6 352.481 5 353.544 64 364.81 25 402.101 80 x424.92 15 5 x448.5? 467.030 32 475.606 24 492.624 5 16 504.65 516.071 15 606.420 58 623.502 6 657.668 5 675.795 5 707.949 12 7t3.224 17 748.278 5 7 7 8 . 7 7 15 780.453 32 848.237 17 864.454 61 869.38 9 669.469? 83 920.710 5 937.049 49 978.969 15 1011 0 2 1012 745 21 I017 999 11 1051 412 5 1088 517 26 1089 882 97 1093 776 16 1150 258 3 1161 039 39 1162 319 67 1177 221 26 1182 483 70 1213 080 64 1218 216 85 1249 731 28 x1259 09 9 1266 126 69 1271 450 85 1285 480 84 1331 416 16 1336 653 41 1338 6? 1403 920 35 1527 050 43 z 1 5 3 2 0 1 7 90
E(level) 67.1 72.50 748.28 1051 41 1403 92 920 72 lOll 22 1051 41 1403 92 1403 92 I011 22 1527 05 1150 26
1403 1527 1150 1162 1527 1527 1403 657
92 05 26 32 05 05 92 67
748
28
780
45 45 28 05 45 72 05 05 05 72 05 41 22 25 25 41 05 32 05 26
780 748 1527 780 920 937 1527 937 920 937 1051 1011 1085 1085 1051 I161 1162 I161 1150 1161.05 1162.32 1249.73 1249.73 1265.6 1285.6 1249.73 1338.6 1338.6 1285.6 1403.92 1403.92 1338.6 1403.92 1527.05
17 §
7.8
7 (80Gell),
E2 M1
76JaOl
p
(62HoI6,54Ma07).
Comments
9.68 3,64
I7:
17=0.20~,
4 (66Bu13).
17:I(3527+3537)=88 17:I(3527+3537)=88
2 2
(80Ge11). (80Get1).
8
1381 3 5 2.3 1.1 6 1.7 6 278 5 5 1 488t 9 1.6 6 10.5 6 18.2 7 334 t 6 10.8 5 3.2 4 10.3 3 370 ~ 8 28.6 9 16.7 9 7.2 4 1.5 3 1,4 4 1.3 4 4.5 6 0.54 1.2 3 2.8 4 1.0 3 12 . 6 6 3.2 4 -<0.3 9 I 3.04 0.8 3
t From 80Gell. $ From ce data in ~4SPm e decay. § For absolute intensity p e r lO0 d e c a y s , x 7 ray not placed in level scheme.
145D~ =o 59--L86
a
Mult. $
17 9 4 9 8 .{` 2 6 14 1 0.63 3.1 3 7.9 5 5.35 12.5 5 2625 70 7 052 1 3 3 1 3 4 ~0 4 4 9 5 8 1 5 48 0 ~ 12 1 1 4 14 3.3 6 45.4 t 12 122 t 2 9 7 9 .{` 14 19.0 8 16.1 8 1O0O 4 1.1 5
SHEETS
z4~Pr fl- Decay
Measured: 7, 77 ( 7 6 J a O I , 7 5 H i 0 3 , 6 9 G r 3 2 , 6 6 B u 1 3 , 6 2 H o 1 6 ) , Ep-=1805 10 ( 6 2 H o 1 6 ) ; o t h e r : <1700 (54Ma07). 17 n o r m a l i z a t i o n : I(7487)=0.525~ 9 (80Gell).
E7
DATA
8697
multiply
by
0.000525
29
9.
was
not
observed
in
(n,n'7).
145~ 591" r 8 6 - - ~ ~
NUCLEAR
14~Pr Measured: % "/(t). Authors a s s u m e d mass E(level )
number
Levels
from
DATA
252Cf
SF
SHEETS
Decay
15495~Dt 8- 6 - - o
74C1ZX
A=143.
Ti /2
0.0 62.6
ns
4.0
f6
7(145Pr) E7
Z~2Cf SF D e c a y
E(level)
62.6
62.6
74C1ZX
Comments 17: I T / S F = O . O 0 1 4 .
l~SPr Measured: E(level)
a(E,O), D W B A
Levels
from
146Nd(d,3He)
MeV
Comments
L$ 4 2 2
E(level): 177 in 78SaZP.
4
E(level): 542 in 78SaZP.
760
(1) 2
(4) 2
E=50
analysis.
0.0 6O 190 337 t 550 810 960 1090 1244 ~ 1333 ~ 1493 ~
from
E(level):
1084 in
78SaZP.
Reported only in 78SaZP. $ F r o m a(e) ( 8 1 V a Z J ) .
30
81VaZJ,78SaZP
o
145~,~ ~ 60~,u85--~.
NUCLEAR
l~SNd Q(#-)=-161.4
25; S ( n ) = 5 7 5 5 . 4
E(level)
7; S ( p ) = 7 9 7 0
Jw
0.0
7/2-
stable
29.4
72.50
t
5/2-
657.67 748.28
1 5
912-
3.7
ps
11
780.45
4
3/2-
0.9
ps
2
919.83 920.72
11 2
t/2-t 9/2-
0.73
937.05 1011 22 1051 41 1085 25 1111 2 1150 26
5 10 f
5/2-t i~/27/2-,5/2-
2
3/2+ t
1 4
7/2-
8
912-
32 7 73 6 8 3 6
3 1 3 2 1
1960
1967.4
6 05 3 3 0 1 6
lO
ns
5
11/2-
ps
15
4 2 ~I 4 5 7 3 7
4
3 3 2 2 6
(512-)
(ti2)-t 512512(3/2)-t 1/2+
J1r: ~/ t o 7 / 2 is M I + E 2 , A J = / Ti/z: from B(E2) i n C o u I . e x .
Jvr: L = 3 J~T: L = 3
in
(n,n'-y); ~ to
in in
(d,p), (d,p),
V(8) f o r V(e) f o r
6 4
11121512(512-)
13/2(912)-
5/23/2+~ 512-,712-
5/2-,7/2(112)(712)512-,7125/2-,7/2i/2+ 1512-
3/2512-,712(1112)5/2+,3/2+
3/2-
3
Jvr: J~r: Jvr: J~v: Jvr: J~r:
L = I i n ( d , p ) , -y t o 7 / 2 - . L=3 in (d,p). L=5 in (3He,a), shell-model. L=2 in (d,t). L=5 in (d,p). L=6 in (d,p).
JTr: L=I J1r: L = 3
in (d,p), "y to 7/2-. in (d,p), ~ to I/2-.
1112-,912-
J~r: L = 5
in
1/2+ 512-
J~v: L = 0 J~r: L = 3
in (d,t). in (d,p), 7 to 1/2-.
on
next
p-
L = 3 in (d,p). L = 3 in (d,p). L=t in (d,t); n o V to 5/2-,7/2-. L = 3 in (d,p), similar m u l t of "f to 7 / 2 - , 9 / 2 - (similar IV). L = 3 in (d,p). 7 to 13/2+ is A J=2, E2; V to 15/2- is AJ=I, D(+Q). L = 3 in (d,p). L = 0 in (d,t). ~ to 11/2- is AJ=2, E2.
s12-
Continued
7/2+
JTv: J~r: J1r: Jvr: J~v: J1r: J~r: Jvr: J~:
(d,t).
4 2
via
12497 in (n,n'v). 12187 in (n,n'v).
7 10 5
11/2-.
J~r: L = 0 i n ( d , t ) . J1r: L = 3 i n ( a , 3 H e ) , s i m i l a r mult f o r "y t o 3 / 2 and 5/2(comparable IV). J~r: V t o 1 1 / 2 - is A J = 0 , D+Q i n ( n , n ' v ) . J~r: V t o 1 1 / 2 - is A J = 2 , E2, -y t o 1 3 / 2 + is A J = I , D. J1r: l o g f t = 8 . 0 v i a 7 / 2 + p a r e n t , V to 3/2+ and 3/2-, log f t contradict with L=I in (d,p) observed by 73Ga01, note different branching f o r V's f r o m this level in (n,v) and decay. J1r: V to 9 / 2 - is AJ=2, E2; 3' to 11/2- is AJ=I, D. J1r: L = 5 in (d,p); log ft=8.0 via 7 / 2 + parent. Jx: ~ to I/2-, V to 7 / 2 - is D+Q.
9/2-,II/213/2+,11/2+
3
> 6 , 1 0 Is y ( n o a ) (651501). J~r: a t o m i c beam (76Fu06), L=3 in (d,t). /~=-0.654 4 (78LeZA). Q = - 0 . 2 5 3 10 ( 7 8 L e Z A ) . Ti/z: from 14SPm v-decay. Jvr: V t o 7 / 2 is E2, L = I i n ( d , t ) . J~: V to 7/2is MI, L = 3 i n ( d , p ) , V f r o m 3/2+. /~=-0.320 4 (78LeZA). TI/z: f r o m i45Pm c decay. J=: V to 7 / 2 - is AJ=2, Q; L=5 i n ( d , t ) . J1r: L = 5 i n ( d , t ) , V t o 7 / 2 is M r + E 2 . TI/2: f r o m B(E2) i n C o u l . e x . TI/2: f r o m B(E2) i n C o u l . e x . J1r: L = t i n ( d , t ) , ~ t o 7 / 2 - .
J~: L=6 in (d,p), no V to 9/2-. J1r: L = 3 i n ( d , p ) , V t o 1 1 / 2 - ; c o n t r a d i c t V(e) i n ( n , n ' 7 ) . J~: V to 7/2and 3/2with comparable IV, l o g f t = 9 . 0 parent. J1r: -/ t o 1 1 / 2 - , V t o 7 / 2 is A J = / M I + E 2 , C o u l . e x .
17/2+ 6
85Wa02.
J1r: -/ to 11/2- is A J=0, MI+E2. J~: 3' to 5 / 2 - is D+Q, V to 9/2-.
(512)-
1401 .2 2 1401 .3 1403 . 92 4
1427 1527 1532 1533 1576 1591 1592 1654.0 1681.3 1709.9 1713 1714.0 1715.4 1726.3 1744.8 1762 1802.0 1820 1822 1846 1874.3 1884.5 1917.5 1940 1954 1957.3
0.72
ns
(1312)+
3
Levels
T1/z: > I . 1 0 I~ y ( 6 6 K a 2 3 ) ; o t h e r :
3/2-
1162 1213 1249 1285 1316 1326 1338
145MA 60 ~', ,,~ 8 5 - -
Comments
2
05
Adopted
SHEETS
T~/~
67.22
1161
3
DATA
page
(footnotes
31
at
end
of
table)
~.
145MA _"~ 6 0 , , ~ 8 5 ,~
NUCLEAR
DATA
14~Nd Adopted
2004.1 4 2011.8 2018 6 2035.7 6 2054 2 2090 6 2107.2 2124 4 2125 4 2133 6 2148.0 6 2181.0 2176 3 2204 2 2223 3 2246 8 2270.4 2291 3 2331 3 2347.6 2355 3 2374 3 2408.2 2421.1 2423 10 2427.3 2449 3 2471 6 2481 3 2510 3 2533 3 2534.4 2546.8 2566 3 2606 3 2620 2626.2 2643 6 2647 2 2670 3 2703 27t3 3 2717 2 2748 3 2752 2 2781 3 2799 2 2810 3 2826 2 2839 3 2858 3 2886.8 2882 3 2907 6 2914.7 2938 3 2977 3 3001 6 3 0 2 6 10 3027 3 3030.3 3051 3 3086 6 3117 3 3140 3 3 1 5 3 10 3159 3 3181 3
3/2-
171211/2-,8/23/2(5/2)+ t 3/z3/2+,5/2+
(11/2-,9/2-) 1/2-,3/2-
5/2+,3/2+ 5/2-,7/2I/2-,3/23/25/2-,7/21/2-,3/219/2-
5/2-,7/219/221/2+ I/2-,3/2-
5/2-,7/2i/2-,3/2-
6o"'.'e5
Levels (continued)
J~
E(level)
145 N.T....]
SHEETS
Comments J~: L=I in (d,p), ? to 7/2-. Jvr: -f to 13/2- is AJ=2, E2; ? to 15/2- is AJ=I, D+Q. J~: L=5 in (d,p). J~r: p r i m a r y 7 f r o m I/2+ (n,?) state, ? to 7/2-.
Jlr: J~r: Jlr: J~r: J~r:
L=5 (80Ja15) and/or L=I (73Ga01) in (d,p). primary "y f r o m 1/2+ (n,?) state, ? to 7/2-. L=(5) in (d,p) (80Ja15); contradict with L=(I) L=2 in (p,d). L=(5) in (d,p).
J~r: J~r: J~r: JTr: J1r: Jw: Jlr: J~r: J~: J~r: JTr: Jlr: J~r:
L=I in (d,p). L=2 in (d,t). L=3 in (d,p). L=I in (d,p). L=I in (d,p); ? to 7/2-. L=3 in (d,p). L=t in (d,p). ? t o 1 5 / 2 - is A J r 2 , E2; ? t o 1 7 / 2 - is A J = I , D. L=3 (80Ja15) or L=I (73Ga01) (d,p). L=3 in (d,p). ? f r o m 2 1 / 2 is A J = I , D; ? t o 1 5 / 2 - ; n o 7 t o < 1 5 / 2 . ? t o 1 7 / 2 + is A J = 2 , E2; n o ? t o < 1 7 / 2 ÷ . L=I in (d,p).
J1r: L = 3 i n ( d , p ) . J1r: L=1 i n ( d , p ) . J~r: i n ( d , p ) : L = ( 6 )
(80Ja15);
L=I+5
(75Hi03);
in
(d,p)
(73Ga01).
L=3 (73Ga01).
21/2-
J~r: ? to 17/2- is AJ=2, E2; ? to 19/2- is AJ=I, D; n o ? to <17/2-.
5/2-,7/2i/2,3/2
J~: L=3 f r o m (d,p). J~: p r i m a r y ? f r o m
+1/2 (n,?) state.
5/2+t 3/2-
J1r: J~r: J~r: J~r: J~r: J~r:
primary ? from L:(3) in (d,p). L=2 in (d,t). L=I in (d,p). L=2 in (d,t). L=I in (d,p).
21/2
J~r: J~r: J~r: J~r: J1r:
L=I L=0 L=I L=I ? to
25/21/2-,3/2-
J~: ? to 21/2is A J r 2 , J~r: L = I i n ( d , p ) .
1/2-,3/2(11/2-)
I/2-,3/223/2
J~r: J~r: J~r: J~':
(11/2)-
J1r: L = 5
(5/2-,7/2-)
(512)+t i/2-,3/2(5/2)+t i12-,3125/2+t 1/2-,3/21/2+ I/2-,3/2I/2-,3/2-
Continued
1/2+
in (d,p). in (d,t). in (d,p). in (d,p). 19/2is A J = I ,
(n,?)
D; n o
state;
?
E2; n o
to
?
?
to 7/2-.
<19/2.
to
<21/2-.
L=I in (d,p). L=(5) in (3He,a), lhll/2 hole state. L=I in (d,p). ? t o 2 1 / 2 is A J = t , D+(Q); n o ? t o < 2 1 / 2 .
in
on
(3He,a),
next
lhli/2
page
hole
(footnotes
32
state.
at
end
of
table)
_O "
NUCLEAR
145~T~ 60L, u 8 5 - - ~ ,q
DATA
SHEETS
145M,,l 8 0 L ' ~ 8 5 - o0
145Nd Adopted Levels (continued)
3220 3270 3349 3517 3517 3961 4081 4217 4568 4847 5512 6081
Comments
Jw
Z(level)
1/2-,3/225/2
J~r: L = I i n ( d , p ) . J~: 7 to 2 1 / 2 + is AJ=2, E2; no 7 to < 2 1 / 2 + . J~r: 7 to 2 3 / 2 is A J = I , MI+E2; no 7 to <23/2.
27/2
J~:
29/2
Jlr: 7 to 2 5 / 2
31/2 33/2
J1r: 7 to 27/2 is AJ=2, E2; no 7 to <27/2. J1r: 7 to 31/2 is aJ=l, D; n o 7 to <31/2. J~: 7 to 33/2 is AJ=I, (D+Q); no 7 to <33/2.
25/2+
4 1 2 7 5 7 4 2 6 5
(35/2)
7 to 2 5 / 2 -
is A J = t , is AJ=2,
L and
vector analyzing p o w e r
E2; no
7 to <25/2.
in (d,t).
i45Nd
E(level) 67.22 72.50 657.67 748.28
780.45
919.83 920.72
937.05
1011.22
1051.41
1085,25 1111.2 1150.26
1161,05
1162.32
1213.7 1249.73
1310.8
7 to < 2 5 / 2 - .
4
t From
1285.6
D; no
E7 2 4
657.668 91.1 2 675.795 748.278 707.949 713.224 780.453
140.2
5 5 5 12 17 32
2
852,73 10 282.886 9 848.237 17 920.710 5 61 864.454 869,469? 83 937,049 49 262.94 353.544 64 1011,0 2 1 3 0 9 5 15 303 192 9 9 7 8 9 8 9 15 1051 412 5 I012 7 4 5 21 1 0 1 7 9 9 9 11 453 5 4 0 2 101 8 0 492 824 5 1150 258 3 1088 5 1 7 2 6 1093 778 16 1161 039 39 5 0 4 6 5 16 1089 882 9 7 1162.319 67 1146 6 2 i 1 7 7 221 2 6 1182 483 70 1 2 4 9 731 2 8 1213 0 8 0 6 4 1218 210 8 5 1285 4 8 0 8 4 1244 5 2 1249 7 2
7
radiations
6
M u l t . ?$
17
67.22 72.500
Adopted
Comments
i00 I00
E2 Mt
9,61 3.64
I00 1.4 I 87,8 4 100.0 4 I00 4 85 4 41 # 1.9 10 I00 0.36 2 46.1 4 100 1 4 6 10 34 12 100 2 0 76 7 100 14 23 9 0,14 7 2.81 2 100 1 76 1 58 3 100 4
E2
0.006
I00 0.34 14 1 100 1
8(MI)(W.u,)=0,0173 8:<0.15 (70Ka36).
0,005
B(E2)(W.u.)=8.3 6.
+1 . 2
B(E2)(W.u.)=2.2 3.
MI+E2
+0.75
MI+E2 D+Q MI+E2
-0.11 -0.23
B(E2)(W.u.)=10.0 6.
11
0.044
MI+E2
D 11
D+(Q)
38 2 36 1 100 3 6 . 6 24 19 3 100 5 100 100 6 21 4 63 8 100 2 9 93 2 9 71 21 98 10 100 10
Continued
E2 MI+E2
B(Z2)(W.u.)=29.2 13.
on
MI+E2
-0.87
+48-83
MI+E2 D+Q
next
page
(footnotes
33
at
end
of
table)
13,
NUCLEAR DATA SHEETS
i 46 50 ~~1T, A _ A--r .~85
145Nd Adopted E(level) 1326.3 1338.6
1401.2 1401.3 1403.92
1427.6 1527.05
1532.3
1533.3 1576.0 1591.1 1592.6 1654.0 1681.3 1709.9 1714,0
1715.4 1726.3 1744.8
1802.0 1874.3 1884.5
1917.5
1957.3
1967.4
2004,1
E~
318.666 352.481 467.030 623.502 1331.416 1336.653 1403.920 679.2 769.9 364.81 475.606 516.071 606.420 778.77 869.38 1527.050 318.7 784.1 1464.8 1532.3 1460,8 1503.2 1578.3 1591.5 1525,4 906.3 1654.0 1881.3 308.5 598.7 794.1 933.4 1646.8 704.4 715.3 964.4 1671.8 1677.4 1743.6 1144.3 1874.3 964.4? 1812.3 1816.9 1884.6 667.3 704.29 1916.9 707.9? 1177.37 1957.3 754.5 915.8 1900.7 1967.4 754,5 1936.8
6
5 32 6 16 41 35
25 24 15 58 15 9 43 4 4 7 2 10 4 4 5 ? 2 4 7
2 2 19
3 20 7 7 3 7 3 9 18 3 10 3 10 3 4 4 4 4 3 4 3
100 43 100 9
(continued) Comments
d
M u l t . ?$
17
1259.1 2 1266.126 69 1271.450 85 1338.6 743.67 10 1400.9 ? 290.1 743.6 26 242.913
5' radiations
145MA 80~,~85
11 14 2
1 0 0 19 3.2 16 11 100 4.4 4
37 1 100 2 7.0 58 2 18 1 4.66 13 1 71 100 3.6 58 4 10O 7 24 4 7.9 7.9 21 3 <20 10 3 2 7 14 lOO 2 100 <16 IOO 2 9 100 100 100 33 96 25 100 73 100 I00 19 78 17 7 2 14 100
Q+D
D+(Q)
-0.05
E2 Note discrepancy in b r a n c h i n g for 7's f r o m 1403.02 level in (n,?), ~ decay a n d (n,n'?).
7
E2 D "/4
36 43
D+Q
D+(Q)
-0.iz
E2
E2
5.8 11 1 0 0 11 56 6 14 5 100 tO0 <32 1 0 0 21 5 9 12 32 90 8 100 40 5 4 10 <88 <100 9.6 24 <40 50 29 50 20 lO0 30 <67 83 22
Continued
on
next
pa~e
(footnotes
34
at
end
of
table)
--A .-~
145~,~ 60~85
_~
NUCLEAR DATA SHEETS
,-'
145Nd Adopted E(level) 2004.1 2011.8 2935.7 2107.2 2146.0
2161,0
2270.4
2347.6 2408.2 2421.1 2427.3
2534.4 2546.8 2626.2
2703
2866.8
2914.7 3030.3 3220
3270.4 3349.1 3517,2 3517.7 3961.5 4081.7 4217.4 4568.2 4847.6 5512.5 6081.4
E~ 2004.1 584.1 610.5 1968.6 2035.2 2040.2 2107.2 984.8 995,6 2146.0 911.2 1240.1 1503.2 2160.9 1056.9 1350,4 1489.9 2204.11 2271.3 637.9 946.3 1007.0 711.2 552.5 1265.8 1506.4 1769.0 2428.1 186.6 522.6 831.4 1706.6 1845.9 3558.4 1489.97 2635.8 2703.7 445.5 458.6 519.3 380,3 163.5 609.2 1506,6 2007,4 2440.6 849.3 318.8 246.8 603.0 691.1 732.6 255.9 1050.5 279.4 664.9 568.9
17 3
5
3 2 6 4 3 4 3 8 2 6
4 2 5 6 7
13 6
6
8
100 53 100 100 28 100 50 50 100 29 24 100 <15 47 5 10 25 100 15 57 100 100 100 12 <100 59 36 II 13 100 I00 100 97 48 <77 100 34 ~25 38 I00 100 100 100 25 20 100 100 100 100 100 100 100 100 100 100
7 radiations
145~4d85-5 60'"
(continued)
Mult.~
22 E2 D+Q
-0.11
17 19 10 12 29 19 1 2 5
D E2 E2 6 12 12 5 D E2
-0.07
21 21
D+Q D+(Q) D+(Q) E2 D+(Q)
E2 Mr+E2
-0.03 +0.07 +0.05
+0,19
D E2 B2 D+(Q) (D+Q)
-0,03
T's w i t h s i g n i f i c a n t 5 (deduced from 7(0)) are assumed to ~: F o r 67,22 T a n d 72.5T f r o m 14~Pm E d e c a y , f o r 6 5 7 , 6 7 7 a n d
35
be M I + E 2 a n d 675.7957 from
n o t El+M2. Coul. ex.
145 M,..I _~ 6o,,,~85 ,~
NUCLEAR
t45Nd
Levels
from
DATA
t4~pm
145M,4 _~ 6o,,~,85 ,~
SHEETS
~ Decay
74ToO4,59Br65
M e a s u r e d : 7, K x r a y , (K x r a y ) "y-coin (74ToO4,59Br65), "y(t) (59Br65,67MyOi,70Ka36). I(K x ray)/I(677+727)=23.8 ? (59Br65), L x r a y / K x ray=O.161 16 (72Ni16). E(level) 0.0 87.2 72.4
1
Jn T 7/23/25/2-
T , / 2 :~
2 9 . 4 n s 10 0 . 7 2 ns 5
Y Adopted values. * Quoted by 70K636 (see 67My01). See also 59Br65.
~,(145Nd)
from
t38Xe(13C,4n'y)
E=49-60
MeV
83HaZC
M e a s u r e d : 7, 77, 7(0), 7(t), y i e l d . E7
E(level)
72.5 90.6 163.5 186.6 246.8 255.9 262.6. 279.4 290.1 308,5 318.8 353.3 380.3 x385.2 445.5 x448.2 453.5 458.6 x498.4 519.2 522.6 568.9 584.1 598.7 603.0 609.2 610.5 x832.7 637.9 657.7 664.9 675.7 679.2 691.1 704.4 711.2 715.3 732.8 743.6 748.3 769.9 831 .4 849.3 946.3 1007.0 1050.5
72.5 748.3 3030.3 2534.4 3517.2 4217.4 1011.0 4847.6 1401,3 1709.9 3349.1 1011.0 2914.7 2868.8 1111.2 2866.8 2866.8 2534.4 6081 .4 2011.8 1709.9 3517.7 3030.3 2011.8 2347.8 657.7 5512.5 748.3 1427.6 3961.5 1715.4 2421.1 1726.3 4081.7 1401.3 746.3 1427.6 2546.8 3270.4 2347.6 2408.2 4508.2
IT ~:
11 2
Mult. t
D+(Q) D
9
D+Q
5
D+(Q)
5 19 6 5 12 <2 1 <30 3
D+(Q) D+(Q) MI+E2 141+E2 g2
D D+(Q) D+(Q) E2
8 26 13
E2 E2 D
15
D+Q
Comments
+0.05 -0.07
Mult.: Az=-0.10 3, A4=-0.01 3. Mult.: Az=-0.29 5, A4=+0.02 7.
-0.11 -0.03 -0.05 -0.12 +0.19 -0.23
Mult.: Mult.: Mult.: Mult.: MulL.: Mult.: Mult.:
Az=-0.21 Az=-0.28 Az=-0.21 Az=-0.29 A2=+0.06 Az=+0.13 A2=+0.35
2, 7, 3, 2, 3, 5, 4,
Mult.: Mutt.: MulL.: Mult.:
A2=-0.10 Az=+0.15 A==-0.03 Az=-0.24
5, A4=-0.70 30. 24, A4=-0.70 30. 1, A4=-0.02 I. 11, A4=+0.04 13.
D+Q
8 16
4 100 2
$
-0.03 +0.07
A#,=+0.00 A4=+0.05 A4=+0.02 A4=+0.00 A4=+0.01 A4=-0.01 A,=-0.13
2. 9. 4, 2. 3. 5. 4.
Mult.: Az=-0.10 4, A4=+0.03 5. MulL.: Az=+0.34 2, A4=-0.11 3. Mult.: A2=+0.23 5, A4=-0.03 6. Mult.: Az=+0.26 2, A4=-0.08 2. Mult.: A~=-0.21 3, A4=-0.00 3; 6=0.0.
-0.11
MulL.: A z = - 0 . 2 8 3, A 4 = - 0 . 0 0 3.
D E2 (D+Q)
Mult.: A z = - 0 . 2 5 5, A4=-0.01 6; 6=0,0. MulL,: A2=+0.26 I, A 4 = - 0 . 0 8 1. MulL.: A~=-0.01 11, A4=-0.11 13.
5
E2
Mult.: A2=+0.34 4, A4=-0.11 5.
5 27
E2 E2
Mult.: A~=+0.20 8, A4=-0.03 10. Mult.: A2=+0.24 2, A4=-0.09 2.
3 47 8 7
E2 E2 MI+E2 D
Mult.: Mult.: Mult.: Mult.:
16 7
E2 E2
MulL.: A2=+0.27 3, A4=-0.07 3. Mult.: A2=+0.20 4, A4=-O.IO 5.
4
E2
Mult.: Az=+0.18 5, A4=-0.05 6.
t A s s u m i n g t h a t M2 c a n n o t c o m p e t e ~: At E(t3C)=56 MeV. x 7 ray not placed in level scheme.
+t.2
with
E2 a n d
A2=+0,25 Ae=+0.26 Az=+0.64 Az=-0.23
El.
36
5, 1, 5, 3,
A4=-0.15 A4=-0.08 A4=-0.08 A4=+0.05
7. 1. 6.
3; 6=0.0.
145klA 60,,~85
--7
NUCLEAR
7(145Nd)
from
DATA
144Nd(n,7)
Measured: 3' (75HiO3,75NaZE), 77 (75Hi03). J~r((5756 2) level)=I/2+ f r o m capture of the t h e r m a l
E~§
E(level)
XTO 4 8 67 1 2 72 2 140 22 x302 3 3 x310 4 2 352 7 2 x380 8 2 x413 4 3 x426 9 2 x 5 4 4 6 17 x546 9 ? x552 9 2 x556 4 3 x564 0 2 x584 1 3 623 6 2 x628 9 2 x645 3 2 x650 0 2 x659 0 2 x667 9 6 x673 1 3 x676 5 6 x681 6 ? x 6 8 4 2 14 708 2 2 713 4 2 x724 5 6 x737 8 7 x749 1 5 x 7 7 3 0 13 780 5 2 x 7 8 9 8 13 794 1 2 x811 9 2 852 8 ~ 2 x876 8 2 x8834 4 x889 8 9 x906 8 2 x920 7 4 x924 2 3 933 4 2 x937 0 2 x94642 9644# 3
x968 x1029 x1033 x1042 xi046 1050 x1052 1056 x1088 x1097 x1101 x1105 Xl141 I146 xtt61 x1165 1177
67.1 72.2 920.2
1403.8
1403.8
780.4 780.4
780.4 1714.0 920.2
5 9 5 9 1 9 6 62
7 8 2 9 6
1714.0
1744.8 1884.5
1050.9 2270.4
7 6
I 2 0 4 0 3
ET§ 1181 x1204 1213 1218 1244 1249
1.95 0.4 1 0.72 2.45 1.I 2 1.02 0,3 f 0.3 1 0.5 1 2.86 0.6 1 2.1 4 1.1 2 0.82 0.7 2 0.6 1 0,5 1 1.22 0.3 f 0,8 2 0.4 1 0.6 1 0.72 26.2 26 18.3 18 0.72 t.5 3 0.72 0,3 1 9.09 0.3 t 3.6 7 5.9 8 I O 0 t fO
x1265 x1268 x1271 1285 x12927 x1304 x1314 x1323 1331 x1333 1337 x1346 1350 x1356 x1366 x1376 x1378 x1386 x1389 x1395 x1402 x1408 x1450 x1471 1489
1213,7
1249.7
0,5 0.4 1.22 0,6 1.02 286 677 1 0 1 1# t 1# 072 072 092 0 6 072 1,4 082 0 5 204 t 0 1 1 0 5 1 5 17 5 449 072 072
5
4 0 3 5 7 9 1 5 0
E=thermal
neutron
75Hi03
with
L=O.
E(level )
17 t
1249.7
3 3 2 2 2
0.8 1.63 2.8 2,1 4.8 <4.9 4,9 2.24 1.3 4.28 1.3 1.02 1.3 1,0 1.9 1.5 0.82 0.7 0.4 I . 1 1.73 0.72 4,45 1.1 0.5 0,82 0.6 1.43 1.7 3.26 1.94 2.7# 2.7# 6.16 6. 1 3.47 2.04 11.3 1.33 0.63 1.43 2,8 2.55 19 2
1285.3 1285.3 1316,8 1249.7 1316,8
2 2 3 2
1285.3
5
2 6 3 7 2 7 2 5 2 7 4 4 4 2 4 4 2 9 2 5 9 1 2 2 4 4 4 6 3 6 5 5 15 9 15 3 8 7 8 9# 6
1403.8 1403.8
2270 . 4
2270.4 2703
x1506.6
8
x1512.3 x1520 1525 x1556 x1594 x1613 1648 x1660 1671
19 19 6 11
8 9 8
19 19 20
1714.0
1677 x1688 1706 x1739 1743 x1759 1812 1816 x1821 x1832 1845 1884 x1895 1936 1968 2007 2035 2040 2107
4 7 7 19 6 13 5 22 8¢ 9 16 3 9 9 18 6 f2 8 9 9 6 8t 7 6 9 11 6 5 4t 2~ 2~ 2~
1744.8
3220
0.82
1 4 8 15 0 9 44
7 4 9 8
i.~i"
i45~,TA _~ 6 0 ~ ' '-~ 85 --
SHEETS
f 1 I
5 5 2 1 6 5
1592.6
1744.8
Comments 2 5 4 5 5 3 3
3 2 4 3 2 1 2
2 I 1 3
5 6 6
11
5
2 2 2
1 3 ! 2 2 1 18
Continued
on
next
paje
2626.2 1744,8 1884.5 1884,5
3.4? 2.04 2O4 173 286 1 It 337 184 475 1 51 1 31 0 61 0 31
2626.2 1884.5
2004.0 2035.7 3220 2035.7 2107.2 2107,2
(footnotes
37
10.6 11 2.55 2.96 1.63 2.6 t 2.86
at
end
of
table)
E?,IT: data of 75Hi03 reevaluated b y 77Mc09, see also 75NaZE.
145 ~T,4
NUCLEAR
60,,u85-~
T(14~Nd) f r o m
ET§ 22o4.15 2271.35 2440.6 25355 2558.45 2635.85 2703.75 30515 31295 34865 36505 37195 38725 4011 40425 4163.3 20 4542.0 20 4836.9
4975.8 5687.5
t 5 § # x
E(level)
17t
2270.4 2270.4 3220 (5756) 2626.2 2703 2703 (5758 (5756
11.o5 i .65
(5756 (5756) (5756) (5756) (5756) (5756) (5756) (5756)
(5756) (5756) (5756)
20 20 20
DATA S H E E T S
t44Nd(n,-y) E = t h e r m a l
75Hi03 ( c o n t i n u e d ) Comments
1.2
5.15 t .45 3.55 1.2:1:
6.25 8.85
1.55 0.75 3.55 3.05
26.1
ET: f r o m
75NaZE.
7.25 15.0 11,0 97.0
13.0 1.2
15 11 97 13
3
R e l a t i v e 17. F r o m 75NaZE. 334.17, 439.67 a n d 506.37 f r o m 75Hi03 p r o b a b l y Multiplet; undivided intensity given. 7 ray not placed in level scheme.
T(14SNd)
from
b e l o n g to tS°Sm.
'44Nd(n,T)
E=resonance
M e a s u r e d : 7. S(n)=5755.4 7. J~r(S(n)+0.374 l e v e l ) = I / 2 + f r o m c a p t u r e of t h e r e s o n a n c e n e u t r o n s J1r(S(n)+1.298 l e v e l ) = I / 2 + f r o m c a p t u r e of t h e r e s o n a n c e neutrons J1r(S(n)+l.628 l e v e l ) = I / 2 + f r o m c a p t u r e of t h e r e s o n a n c e n e u t r o n s E7 709 712 779 852 1145 1246 1251
4 9 5 2 8 0 6
1671 1677 4011
8 4 3
t
E(level) 20 20 10 10 10 20 20 20 20 20
780 3 780 3 780 3 919 6 1213 3 1318 4 1318.4 1744.8 1744.8 S(n)+0.374
R e l a t i v e IT i n
14 5~TA 601, u 8 5 - - uo
I7 ? 32 17 7 96 26 15 19 18 14 19
ET
4 3 3 3 2 2 2 4 3 2
t h e d e c a y of 0 . 3 7 4 - e V
77Mc09
w i t h L=0. w i t h L=0. w i t h L=0.
E(level)
IT ? 26 6 80 4 95 3 0 55 14 70 2 2 59 2 3
4543.3
20
4836.6
20
4978.1
20
S(n)+0.374 S(n)+0.734 S(n)+0.374 S(n)+0.734 S(n)+1.628 S(n)+1.298
5689.1
20
8(n)+1.628 S(n)+0.374
58 23
4
S(n)+1.298
46
17
18
resonance.
145Nd Levels f r o m
144Nd(d,p) E=I£.I MeV
80Jar5
O t h e r s : E=33 MeV (75Hi03); 12.6 MeV (73Ga01). M e a s u r e d : a(E,8), DWBA a n a l y s i s . Levels: 1400 (L=I, CzS'=0.02), 1578 (L=3, CZS'=0.25), 1988 (L=I, C2S'=0.01), 2160 (L=t, C28'=0.05) w e r e o b s e r v e d o n l y i n 73Ga01; l e v e l 2152 (L=3+5, CZ8'=0.38+0.31) o n l y E(level) 0.0 68 3 656 6 749 3 780 3
J~$
t
7/23/211/29/23/z-
Lt 3 1 5 5 1 Continued
cZs,? 4.08 0.21 0.25 2.17 1 .41 on
next
pa~e
(footnotes
38
at
end
of
table)
in 75Hi03.
NUCLEAR DATA SHEETS
145~A _o 60~,u85 a
145Nd
E(,level) 919 937 1110 1150 1213 1250 1284 1331 1400 1528 1575 1592 1653 1684 1713 1744 1762 1822 1846 1885 1913 1969 2004 2018 2090 2117 2133 2176 2223 2246 2270 2291 2331 2355 2374 2423 2449 2471 2481 2510 2533 2566 2606 2827 2643 2670 2713 2748 2781 2810 2839 2858 2882 2907 2938 2977 3001 3027 3051 3086 3117 3140 3159 3181 3214 t
3 3 3 6 6 3 6
3 3 3 6
6 6 3 3 6 3 3 6
3 6 6 6 6 6 3 3 6 3 3 3 3 3 3 3 6 3 3 3 3 3 3 6 3 3 3 3 3 3 3 3 6 3 3 6 3 3 6 3 3 3 3 3
Levels
Lf
J.t
?
1/25/213/2+
7/2I/25/25/2(5/2)9/25/2-,7/2(1/2)(712)5/2-,7/25/a-,7/23/2-
5/2-,7/29/2-,11/213/2+,11/2+ 3/2-
5/25/23/211/2-,0/2-
0,58 1.13 3.70 0.05
3 3 3 1 5 3 1 3 3 3 1 3 5 6 1 3 3 t 5 5
0.24 O.OI
1/2-,3/2-
1 3 1 i 3 1 3 3 1 3 1 (6 3 3 (3 (3 (3 (t (S (3 1 1 1 1 1 (3 (1 1 3 1 1 i 1 1 3 3 3 1
5/2-,7/21/2-,3/2512-,712I/2-,3/2-
(5/2-,7/2-) 1/2-,3/21/2-,3/21/2-,3/21/2-,3/z1/2-,3/21/2-,3/21/2-,3/21/2-,3/2-
112-,312-
E=I2.1
MeV
80Ja15
(continued)
Comments
CZS': w e a k .
(5) (5)
1/2-,3/2-
144Nd(d,p)
C Z S '?
1 3 8 3
(11/2-,9/2-) (11/2-,9/2-)
5/2-,7/21/2-,3/23/25/2-,7/2-
from
i45MA 0 60~,u85--~
0.02 0.44 0.12 0.18 0,02 0.03 0.03 0.09 0.36 0.10 2.10 0.09 0.02 0.18 0.02
E(Ievel),L,C2S': f r o m
L=I
(73Ga01); L=3 ( 7 5 H i 0 3 ) .
L: L=8 i n L=I
73Ga01.
the
table
in
80JaI5
(73Ga01).
0.08 0.65 0.14 0.08 0.27 0.20 0.02 0.09 0.20 0.09 0.21 0.48 0.08 0.07 0.0~ 1 .27 0.37 0.06 0.22 0.33 0,20 0.02 1 .58 0.45 0.11 0.08 0.11 0.02 0.02 0.12 0 0 0 0 0 0 0 0 0 0 0
L=I (73Ga01). L=(I) (73Ga01).
L=I
(73Ga01).
L=1+5
( 7 5 H i 0 3 ) , L=3 ( 7 3 G a 0 1 ) .
L = t (73Ga01). L=I (73Ga01). L=t (73Ga01).
L=I
(73Ga01).
03 06 03 06 05 01 04 11 10 09 09
From 80Ja15. Adopted values.
39
is a m i s p r i n t .
145~T.~ 6 0 L" u 8 5 -i0
NUCLEAR
145Nd Measured: E(level)~
G(E,8=IS°), D W B A j~t
0.0 857 747 930 1112 1252 1334 1530 1760 1849 1960 2010
Levels
from
E=66.2
145T~TA 60 ~' ~ 8 5
MeV
75Hi03
CzS ,
7/211/29/25/213/2+ 5/25/29/25/213/2+ 5/29/2-
3
1.9
6 3 3 5 3 6 3 5
4.2 0.42 0.72 0.34 0,52 1.54 0.14 0.32
2095
9/2-
5
0.94
2152 2220 2500
5/2-,9/2-
(3+5) (1+5) (1+5)
0,38,0.31
3/2-,9/2-
144Nd(a,3He)
SHEETS
analysis.
Lt§
3/2-,9/2-
DATA
3 5
2.8
5
2.7
Comments
Cz8': i f
L=(1) J = ( 3 / 2 - )
8=0.48,
Cz8': i f
L=(5)
and
J=(9/2-)
CzS': i f
L=(6)
and
J=(13/2+)
if
L=(5)
J=(9/2-)
S=0,6.
Coul.
and
8=0.31. S=0.22.
0.44,0.55 0.22,0,68
Values assumed in analysis of data from 75Hi03. $ From (d,p) (75Hi03). § L e v e l s w i t h l a r g e L~3 d o m i n a t e d the spectra.
V(i45Nd)
from
145Nd(n,n'7)
83Go15
Reactor fast neutrons. Measured: V, IV, V(8). E7
E(level)
72.23 20 x149.2 3 x185.5 3 x243.5 4 x248.0 4 x252.6 3 262.8 § 4
72.23
x308.6 2 318.7?# 4 3 5 3 . 2 8 § 10
920.9
1010.87
30 § 12
1404.0 1532.3 1010.87
3 5 2 3 5 5 3 fO 2 6
1527.1? 1150.4 1162.2 1527.17
3
4 4 4 5 2 4 4 4
2427,3
1404,0
Comments
Mult. t
5 I 4 I 1,0 2.8 2,4 0,33
1404.0 x356.4 x373.6 x427.0 x430.6 x448. I x450.0 474.9 492.76 504.6 515.7 7525,2 x548.1 552.5 x580.1 x584.0 623.6 x630.6~ x633.2 x640.0 x643.4
IV
4 8 6 §
D+(Q)
IV: f r o m 1(262V)/I(920V)=0.0036 doublet 262% 6:-0.04 5 o r - 5 . 6 4 +144-275.
in
ex.
IV f o r
17: f r o m I(3537)/I(0237)=1.9 3537. doublet -0.07<6<+0,8. I(353V)/I(623V)=I.9 17: f r o m doublet 353V.
in
/~- d e c a y
and
17 f o r
in
fl-
and
17 f o r
4.4 6 2,6#
2.8#
D(+Q)
34 §
6§ 1.6 1.5 2.2 2.8 2.2 3.5 1,0 6.3 6 ! 2.2 0,9 0,58 1,0 1,0 4,7 3,8 2,4 0.8 0.8 1,8 Continued
4 6 6 8 7 9 4 2 6 4 [6 5 5 19 3 5 4 4 7 on
next
pa6e
(footnotes
40
at
end
of
table)
decay
-i0
l~Ndes-ll
NUCLEAR
DATA
7(14SNd) f r o m 14~Nd(n,n'7) E~ 657 667 675 x679 704 707
61 10 3 3 7 5 10 5 2 2 9 10 9 ? § 10
707 713 x728 x732 743 748 754
91§ 23 02 7 3 67 27 5?#
10 10 15 10 10 4
x757.9 2 x763.0 4 x 7 7 0 . 2 1 10 780.30 10 784.1 4 x788.2~ x790.8 4 x792.9 4 x796.8 4 x812.2 5 x833.24 10 847.9 4 852.73 10 864,44 10 x893.1 4 x904.1 4 906.3 2 911.2 4 915.8 4 920,9 2 x930.08 10 936.84 10 979.0 3 984.8 3 995.6 2 x1000.7 # xi002,7 5 1012.7~ 1017.6 3 xi021.5 4 xi029.0 3 xi047.2 4 1051.6 2 xi059.1 4 xi069.2 3 x1074.93 15 1089.43 20 1094.0 3 x1107,5 3 1146.13 1 1150.4 4 1162.1# 3 x1167.9 1177.3§
1182.3 x1210.6 1213.2 1218.3 x1228.9
17
E(level) 657.61 1917.5 748.27 1917.5 1957.3 780.40 780.40
1401.2 748.27 1967.4 2004.1
780.40 1532.3
920.9 919.83 936.89
1654,0 2181.0 1967.4 920.9 936.89 1051.6 2146,0 2146.0
1084.9 1084.9
1051.6
1162.2 1161,2 1213.3 1150.4 1161.2 1162.2
4 3
2 4 2 2 4
1249.8
3 8 4 19 4.5 4 92 9 9 3 5 2 <10§
9§
1249.8
3.38 2.6 7 9 2 8 . 4 - "t6 1.5 ?
T
Comments
E2
I3': f r o m 13,(707 c o m p o n e n t f r o m 780 l e v e l ) a n d doublet)f22 5. l'y: f r o m 1 3 , ( 7 0 7 ) / I 3 , ( 7 8 0 ) = 2 , 4 4 2 7 i n p - d e c a y ,
Q+D Mr+E2
6:+1.30 45.
MI+E2
6:-0.44
or
+16-22
+1.6
+3-5.
MI+E2 MI+E2
D+(Q
6:+0.02
+9-5
D+Q
6:+0.52
+10-6
D+(Q
6:-0,02 + 1 7 - 1 4 o r +1.75 + 7 5 - 5 6 . 13,: 13, f r o m 1 3 , ( 1 1 7 7 ) / I ? ( 1 1 8 2 ) = 4 . 8 10 i n # I ? : I ? f r o m 13,(1177 f r o m 1249 l e v e l ) a n d doublet)=25 3.
6
Continued
83Go15 ( c o n t i n u e d )
E2
19§ 2 17 1 1 6 4 '266 31 6 100 1 2# 1 .2# 2.6 7 2 4 ? 16 2 7 1 1 3 4 093 063 0 3 6 18 084 3 1 8 12 3 3 3 10 16 3 20 4 0 60 24 1 2 6 248 1 9 9 1 5 8 92 5 203 29 1 33 8 248 489 1 2 5 259 883 602 359 257 4 2 24 5 1 7 8 2 2 6 628 16 4 639 439 15 2 3 7 11 6 8 # 13 68# I 3 3 1 16§ 5
1957,3
1285.6 1285.6
Mult,
145~,T.aeO,,,,85_,ll
SHEETS
D+(Q
on next
or or
+8
+3-22.
+3.2
+7-2.
6:+1.6 + 1 0 - 7 o r +0.01 + 3 2 - 2 0 . 6: - O . 1 I + 1 9 - 2 7 o r - 2 . 6 + 1 2 - 2 2 .
page
(footnotes
41
at
end
of
table)
decay. 13,(I177
I?(707
145 e0Nds5-12
NUCLEAR
"y(145Nd)
E(level)
E7 1240.1 1244.7 1249.9#
3 2
1259.1 1265.8§
2
2
2
1271.8 1285.6 x1307.92 x1314.1 1332.1 1338.5 1350.6 x1360.0 x1368.2 x1386.5 x1391.4 1400.9 x1407.7 x1432.9 x1437.4 x1449.0 1464.8 1490.8 1503.2#
2 2
1506.4 x1511,84 x1516.48 1525.4 1532.3 x1543.0 x1550.2 x1561.2 x1569.4 1576.3 x1581.9 15gt.5 x1643.6 1654.0 x1673.8 1681.3 x1696.7 x1701.9 x1733.5 x1749,8 x1762.0 x1765.0 1769.0 x1780.4 x1820.2 x1827.7 x1833.0 x1839.8 x1846,1 x1874.3
5
7 2 6 4 7 4 4 8 5 3 4 5 7 4 2 4 5 4 5 6 7 4 4 4 2 4 7
x1883.7 x1894,3 1900.7 x1905.3 x1911.6 1916.9 x1923.5 1936.8 1957.3
4 2 4 6 4 3 4 3 4
1326,3 1338,7 2427.3 1338.7 1285.6
14 2 6,4 {
1401.2
1532.3 2270.8 1576.0 2161.0 2427.3
14 15 1592,6 1532,3
1576.0 1591,I 1654.0 1681.3
2427.3
1874,3
1967.4
1917,5 2004.1 1957.3
14~Nd(n,n'v)
MI+E2
83Go15
(continued)
Comments
l-y: f r o m l ' y ( 1 2 4 9 ) / I v ( I t 8 2 ) = 3 . 0 ? i n ,8- d e c a y . I'y: f r o m 13'(1249 f r o m 1249 l e v e l ) = l O 4 a n d 13,(1249 d o u b l e t ) = 1 7 5, I-y: f r o m I ' / ( 1 2 7 1 ) = 0 . 4 3 13 i n p - d e c a y , l-y: f r o m I-y(1265 f r o m 1338) a n d I-/(1265 d o u b l e t ) = 8 , 5 ~: +0,10 9 o r +5,7 + 2 f - 1 4 9 ,
22
<5§ 15 3 5,68 3,9 2,0 12 3 1.8? 2.2 4 1 2.1 1.9 3.4 1.0 2.29 0.63 1.66 1.05 3,5 1.7
145MA 80,'~85- 12
SHEETS
Mult. t
7.8 23 5 2 10# 4 7§ ?
1404.0 1338.7 2270.8
4
17
2181.0 1317,2 1249.8 1317,2
13
5 6 5 3 4 2 4 3 7 4 4 3 6 7 2
from
DATA
8
7
6 5 6 8
5
17
4
t .2# 1.2# 5 ! 6 . 3 .15 7 3 7 3
13.0 3 1.47 1.89 1.7 8 2.28
~: + 4 . 0
D+Q
+360-22
or
+0.40
+35-20.
7.8 22 3 1 3.49 3.8 14 2,36 1.4 6 4.5 17
1.3 5 1 1.8 6 2 7 2 5 2 3 l 1.45 236 084 084 307 1 6 1 5
5
i
?
5
5
6 7
2.4 6 709 1 5 6 094 2 3 11 275 18 ? I 54 246
Continued
on
next
pa~e
(footnotes
42
at
end
of
table)
7,
145
e0Nd65-13
NUCLEAR
7('45Nd)
1967 x1996 2004 x2069 x2091 x2102 x2108 x2120 2146 x2149 2160 x2244 x2249 2428 x2439
4
3
1
2
1967.4
8
4
1 7 6 4 0 8 9 7 5 1 4
3 6 6 5 6 6 3 8 8 7 8
'45Nd(n,n'7)
80Nd65-13
83Go15 ( c o n t i n u e d ) Comments
3.0
1.8 1.8 2.9 5 9 1.9 1.9 0.5 1.4 2.0 3.7 2.0 0.6 0.9 0.6
2004.1
1 3
145
SHEETS
17
E(level)
E7
from
DATA
2146.0 2161.0
2427.3
17: p r o b a b l y
misprint
of
IT=5.0
9.
1"Assuming that M 2 cannot c o m p e t e with $ C o m p l e x line. § Multiplet; intensity suitably divided. #Multiplet; u n d i v i d e d intensity given. x T ray not placed in level scheme,
i45Nd(p,p')
*45Nd L e v e l s f r o m
E2. M1 a n d
El.
77Hell
J~r(145Nd)=7/2-. E=8.7-I0.3 M e V (77Hell), 8-14 M e V (7ICaXY). Measured: o'(E,O). D e d u c e d IAR in *a6Pm. E(level)
o.o 70 656 748 780 919
J~$
7/2E(level),J~,da/dO:
11/29/2-
0.25 0.20 0.04
3/2-
0.03
9/2-
0.04 0.01 0.01
1162
11/213/2+ 9/2-
0.03
1249 1334
5/25/2-
0.01 0.01
14o5
(5/2-)
0.02
1005 1109
Comments
dq/dO ?
~'d(r/dQ (average SAdopted values.
I
145Nd(x,x'7). X = p , E=2.2 MeV ( 5 5 8 i 1 2 ) . X = a , E = i l . 2 MeV ( 8 4 D r 0 3 ) . X=I4N, E = 5 2 MeV ( 6 3 A 1 3 0 ) . X=*aO, E = 4 5 MeV ( 6 6 E c 0 2 ) , 3 5 - 4 5 M e a s u r e d : o'(E), 7, 7 ( 0 ) , y i e l d .
keY
with
J=3/2-
and
5/2-.
J~?
from
nonresonant)
Coulomb
near
E(p)=9
Excitation
MeV ( 7 7 H e l i )
in
mb/sr.
84Dr03
MeV ( 8 4 D r 0 3 ) .
Comments
T1/2
0.0 67.1 72.5 657 .4 748 . I
7/2-
9/2-
3.7
ps
11
780.2
3/2-
0.9
ps
2
920.8
9/2-
0.73
3/2-
5/z11/2-
1051.3
7/2-,5/2-
t162.3
9/2-
~" A d o p t e d
67+72
l
145Nd L e v e l s
E(level)
doublet:
ps
15
B(E2)=0.030 2 (84Dr03). B(E2): o t h e r : 0.017 ( 6 3 A l 3 0 ) . TI/z: f r o m B ( E 2 ) = 0 . 0 3 0 2, B r a n c h i n g = 0 . 5 2 B(E2)=0,020 3 (84Dr03). TI/2: f r o m B ( E 2 ) = 0 . 0 2 0 3, B r a n e h i n g = 0 . 1 8 B(E2)=0,036 2 (84Dr03). B(E2): o t h e r : 0 , 0 2 6 ( 6 3 A 1 3 0 ) . T1/2: f r o m B ( E 2 ) = 0 , 0 3 6 2, B r a n c h i n g = 0 . 6 8 3 B(E2)=0,012 5 (84Dr03). B(E2): o t h e r : 0 , 0 5 8 ( 6 3 A 1 3 0 ) . B(E2)=0,023 4 (84Dr03).
values.
43
I and
6=+1.30
2.
3, d = + 0 . 7 5
11.
45
(n,n'7).
140SNd85-14
NUCLEAR
"/(145Nd) E(level) 67.1 72.5 657.4 748.1
780.2
920.8
1051.3
1162.3
t
Branching
Z7
17t
67.1 72.5 657.4 91.0 675.5 748.1 707.8 713.6 780.2 263.1 848.2 920.8 303.0 979.0 1051.3 504.6 1089.8 1162.3
100 100 100 2 44 54 44 37 18 2 30 67 6 55 39 5 15 80
f ! 1 t 1 I 2
SHEETS
145~T~ 60 r,,..= 85 -14
Excitation
84Dr03
6
Comments
E2
Mult.:
A z = + 0 . 1 1 0 1, A 4 = - 0 . 0 0 2
E2
Mult.:
Az=+0.077
A z = + O . 0 1 8 7, A 4 = - 0 . 0 0 3
12, A 4 = - 0 . 0 1 0
I. 14.
2
2 2 9 9 2 2 2
MI+E2
+0.75
11
Mult.:
MI+E2
-0.87
+48-83
Mult.: A e = - 0 . 1 6 8
7.
7, A 4 = + 0 . 0 3 2 8.
from each of excited levels.
Measured: a(E,8), D W B A E(level)
t
Coulomb
Mult.
i45Nd
0.0 68 657 2 748 2 780 2 928 2 1086 2 1328 3 1529 3 1712 3 1805 4 1954 4 2052 4 2125 4 2202 4 2647 5 2716 6
from
DATA
from
14SNd(p,d)
E=31
MeV
75Hi03
analysis (75Hi03,71BaZA).
j=t
L
7/23/211/29/23/21/23/2+ 1/2+ 3/2+ 1/2+ 11/2II/2-,9/2(5/2)+ 3/2+ 5/2+ 5/2+
3 1 (5) 5 1 1 2 O 2 0 (5) (5) 2 2 2 (2) 2
(5/2)+
Levels
CZS
Comments
1.9 0.16 0.6 o.5
o.17 O.ll 0.17 0.5 2.3 0.8 3.7 0.45 0.33 0.08 0.13 0.18
E(level),L: probable doublet; L=3 in (d,t).
C2S: for J = l l / 2 - .
0.7
Adopted values.
145Nd L e v e l s
from
148Nd(d,t),(pol
d,t)
E=16
MeV
82Ar13
Vector polarized deutrons (82Ar13); others: E(d)=12.1 M e V (80Ja15), 75 M e V (78VaZS). Measured: ~(E,8) (82Ar13,80Ja15,78VaZ8), vector analyzing power (82Ar13); D W B A analysis. E(level)§ 0.0 67 2 67 2 657 2 748 t 2 780 2 919 2 936 2 1083 2
j~$ 7/23/3-
5/23/21/25/23/2+
L§ 3 1 3 5 51 1 1 3 2
Continued
S§ 1.37 0 13 0 06 0 35 0 37t 0 17 0 O7 0.15 0.13
on
Comments
E(level): unresolved doublet with L=I and L=3.
next
paBe
(footnotes
44
at
end
of
table)
145 60Nd85-15
145Nd E(level)§
llOOt
Levels
Jw$
1242 f 6 1315 2 1331 2 1528 2 1591 2 1711 1801
2
t From $ From § From
6o""85 - - 1 5
(I/2)-
I
0.002
(3/2)1/2+ 3/2+
3t 1 0 2 1
0.02 t 0.04 0.24 1.73 0.011
0
0.63
(5)
1.73
2 t 5t 0 2 (2) T
0.063
t 2 2 2 2 2 0
t 0.085 0.13 0.49 0.049 0.075 0.033
5/2+ 11/2-,9/21/2+ (5/2)+
(5/2)+ 5/2+ (5/2)+ (5/2)+ 5/2+ 1/2+
d,t)
E=16
MeV
82Ar13
L=6 also in 76BjZY. S: calculated for J=13/2+. S: calculated for J=5/2-.
S: c a l c u l a t e d for J=I/2-. L: d o u b l e t w i t h L = t a n d
L=3 ( 8 0 J 2 1 5 ) .
L: a ( 8 ) is consistent with S: calculated for J = 1 1 / 2 - .
0.37 t 0.026 0.17 0.05 t
large L ( 8 2 A r 1 3 ) .
S: calculated for J=11/2-.
E(level): not S: c a l c u l a t e d
80Ja15. vector analyzing power analysis and the 82Ar13 except where noted otherwise.
14SNd L e v e l s
values
from
observed by for J=3/2+.
of
82Art3.
L.
146Nd(3He,a)
E=24
MeV
80Lo06
O t h e r s : E=75 MeV ( 7 8 V a Z S ) , 82 MeV ( 7 7 S e 0 4 ) . M e a s u r e d : a ( E , 0 ) , DWBA a n a l y s i s .
E(level)
j~t
0.0 746 I0 1 1 1 0 10 1 5 3 6 10 1 7 2 4 10
7/29/213/2+ 3/2+
t Adopted
L
S
3 5 6 2
Measured:
352.5 453.5 657.7 675.8 708.0 748.3
T, a T ; E(level)
9 3 2 6 17 4
j~t
L
S
1803
10
11/2-
5
1.9
2718
1o
(5/2)+
2
1.1
3026 3153
10 10
(11/2-) (11/2)-
(5) 5
1.1 0.57
values.
7(145Nd)
E7
E(level)
1.4 0.64 0.64 2.0
1403.9 1111.2 657.7 748.3 780.5 748.3
deduced
S(hll/2) IT
8 2 23 3 100 7 21 3 6 2 25 3
from for
(continued)
Comments
S§
o,o71
2
2175 t 6 2204 2 2647 2 2717 2 2752 2 2799 2 2826 2
146Nd(d,t),(pol
st
1/2+
1820 2 1940 t 6 1953 t 6 1960 2 2054 2 2117 t 6
from
L§
s
1212 2
145 M,4
NUCLEAR DATA SHEETS
146Nd(3He,a3,) level
MeV
1802.
E7 848.2 920.7 978.9 1051.4 1144.3 1460.8
E=26
3 70 12 30 10 10
E(level)
IT, '
920.7 920.7 1051.4 1051.4 1802.0 1533.3
2 6 6 6 9 9
45
1 2 2 2 3 3
84Ra03
1450-6 1 ~ I I 1 8 4 --1
NUCLEAR
145Pm Q(~-)=-620
3; 8 ( n ) = 7 9 2 7 . 4
E(level) 5/2+
5
7/2+
15
5 3
3/2+ (3/2)+ 7/2+
5 4 3
9/2+ I/2+ 9/2+
492.31
660.5 669.7 713.6 726,5 750.4 773 794,6
823 836
Adopted
25; Q ( a ) = 2 3 2 2
17.7
Levels 3
85Wa02.
2.64
Comments
4
y
145Din 61~LL~84 - 1
ns
6
V.t=lO0; % a = 2 . 8 , 1 0 -~ ( 6 2 N u 0 1 ) . T1/z: f r o m 5 9 B r 6 5 . J~r: L=2 i n (SHe,d), log f t = 7 . 8 to 7 / 2 - . J1r: L = 4 i n (3He,d), T to 5 / 2 + is MI+E2, TI/2: f r o m 1458m t d e c a y ; o t h e r : 2.5 n s 3 ( p , 2 n T ) (80Ko16). J1r: L=2 i n (SHe,d), T f r o m 1 / 2 + is MI+E2. J1r: T to 5 / 2 + is A J=1 MI+(E2), T to 7 / 2 + is (E2). J1r: "y to 5 / 2 + is hJ=l, MI+E2; T f r o m 9/2+. J~r: T to 7 / 2 + is AJ=I, MI+E2; "y f r o m 11/2+. J~r: L = 0 in (aHe,d). J~r: 3, to 5 / 2 + is hJ=2, E2; 3' to 7/2+.
(3/2)+1" 4
5 5 5 5 8 3 0 4
883 958 1057 3 1101 6 1206 8 1215 2 1233 9 1260 5 1284 O 1291 9 1311 7 1346 9 1365 9 1384 9 1388 5 1397 2 1455 7 1489 1 4 9 3 .6 1502 . 0 1507
11/2-
5/2+ 11/2+ 7/2+,5/2+
5
(3/2)+ 1/2+
e
9/2-
e
(11/2)+
5 5
(3/2)+t
17.1
ns
12
Tl/~: w e i g h t e d a v e r a g e o f 16.3 n s 15 ( 8 0 K o 1 6 ) a n d 18.3 n s (768h05) in (p,xn-/). J ~ : 3, to 7 / 2 + is M2, L=5 i n (SHe,d). Jlr: 3, to 7 / 2 + a n d 3 / 2 + a r e MI+E2. J~v: T t o 7 / 2 + is AJ = 2 , E2; T f r o m 1 1 / 2 + . Jvr: T to 5 / 2 + is h J = l , Mi+E2, T to 7 / 2 + is MI+E2. J1r: L=2 i n (SHe,d), T to 5 / 2 + is h J = ( 1 ) , MI+E2. J~r: L=O i n (SHe,d). Jvr: T to 1 1 / 2 - is A j = I , MI+E2; T to 7 / 2 + is h J = l , El. J1r: T to 9 / 2 + is A J = I , MI+E2, n o T to 5 / 2 + .
6 6 6
(7/2, 11/2)-
Jrr: 3, t o
9/2+
is
A J = I , El.
6
13/2+
Jrr: T to
9/2+
is
AJ = 2 ,
E2; T to
19
11/2+.
6 7
712-
J~r: L=3
8 7 8
13/2+
Jrr: T to
9/2+
8 8
( 3 / 2 + ) 1" 13/2+ 15/2+ ( 3 / 2 ) + 1"
J~r: "7 t o J~: T to
11/2+ 11/2+
1558 .3 8 1563 1648 . 7 9 1716 1753 1753 1809 1849 1978 2008 2112 2168 2190 2210 2282 2294
S(p)=4811.6
SHEETS
Tl / 2
J~
O.O
61.25
25;
DATA
(15/2)
(1/2+)
JTr: JTr: JTr: J~r: JTr:
1/2+
JTr: L=0
1/2+ 1/2+ (11/2)-
in
(SHe,d); T to is A J = 2 ,
is is
9/2-
is MI+E2.
E2; "y to
11/2+
(SHe,d).
I/2+
Jvr: L=0 i n
(SHe,d).
(3/2+)I" (3/2+)1" (3/2)+1. (3/2)+1"
Jr:
M1.
A J = I , M1; n o 3' to J < l l / 2 + . AJ = 2 , E2; T to 1 3 / 2 + .
T to 1 3 / 2 + is A J = I , D; n o 3' to L=0 i n (SHe,d). L=0 i n (SHe,d). L=5 i n (3He,d), s h e l l m o d e l . L=(O) i n (SHe,d). in
is A J = I ,
J<13/2.
(3/2)+1"
L=2
for
doublet
2282+2294.
2329 2401 2431 2474 2562
1. L=2 i n (SHe,d), b e c a u s e a l m o s t a l l e x p e c t e d s t r e n g t h for g.s., o t h e r L=2 l e v e l s ( p o p u l a t e d i n (SHe,d)) a r e p r o b a b l y
46
L=2, d 5 / 2 l e v e l s 3/2+ (d3/2).
was
observed
in
transition
to
5/2+
NUCLEAR DATA SHEETS
t 481~II164 sD_ -2
t4~Pm Adopted
z7
E(level) 61.25 492,31 660.5
669.7
713.6 726.5 750.4 794.6
823.5
836.5 883.8
958.0 1057.3 1101.8
1206.8
1215.2
1233.9
1284.0 1291.9
1311.7 1346.9 1365.9 1384.9 1388.5 1397.2 1455.7 1493.6 1502.0 1558.3 1648.7
61 431 492 168 599 660 608 669 652 234 80 750 44 733 794 153 331 762 122 775 223 822 883 465 958 564
25 5 4 5 31 15 04 5 1 5 5 5 6 4 7 3 4 4 O0 6 76 5 4 3 2? 4 3 6 5 78 5 O0 8 3 4 80 5 3 3 50 8 7 5 8 3 5 4 O 4 8 3 307 26 8 388 I 4 432 1 2 1040 7 5 370 3 4 456.4 2 493.2 5 537.0 4 545.5 4 1154.1 5 1215,2 5 410.4 2 1233.6 5 570.4 3 468.4 3 622.3 4 799.4 5 819.2 5 1311.7 6 510.4 4 633.3 3 529.4 3 652.4 4 283.17 7 674.9 5 190.35 5 646.8 4 742.1 5 657.1 5 155.15 4 665.5 4 721.6 5 251.48 7
Mult.
17 100
MI+(E2)
100 5 9.58 100 8 24 2 19 2 I00 5 I00 I00 2.33 100 5
MI(+~2)
I00 10 4 . 8 19 II 2
M2 E3
100 8 58 8 1.22 I00 5 19 2 84 8 I 0 0 12 9.0 21 100 I0 100 57 7 2O 5 86 9 100 1 f 10.4 28 100 6 18 3 20 3 14 3 28 5 I 0 0 10 52 9 1 0 0 13 100 7 0 16 I00 14 8 0 16 1 0 0 13 54 8 7 5 13 1 0 0 13 44 5 1 0 0 16 100 lO0 82 9 IOO 12 I00 I00 11 .3 13 100 8 100 I00
MI+(E2) MI+E2
16415~v1 ~~1 8 4 _ o
7 radiations
6
Comments
a
B(MI)(W.u.)=O.0356
<0.045
(E2) MI+(E2) MI+E2 Mr+E2
0.44 0.63
7 3
E2 0.0216
B ( M 2 ) ( W , u . ) = 0 . 3 0 5. B ( E 3 ) ( W . u . ) = 1 3 6.
E2
E2+MI E2+MI
1.1
MI+E2 MI+E2 MI+E2
0.34
5
0.0687
0.07
1
0.02535
4
El
MI+E2
E2+(MI) E1
(MI+E2) E2
Mi+E2 0.258
MI E2 Mt E2 D
47
6
[2.
145D-61111184 -3
NUCLEAR
fl+,e
Data
from
DATA
145Pm
145 6 1 D. 1__ 1 1 8 4 - o,':,
SHEETS
e Decay
74To04,59Br65
M e a s u r e d : V, K x r a y , (K x r a y ) V - c o i n ( 7 4 T o 0 4 , 5 9 B r 6 5 ) , 7 ( t ) ( 5 9 B r 6 5 , 6 7 M y 0 1 , 7 0 K a 3 6 ) . I(K x r a y ) / I ( 6 7 V + 7 2 V ) = 2 3 . 8 7 ( 5 9 B r 6 5 ) , L x r a y / K x r a y = 0 . 1 6 1 16 ( 7 2 N i 1 6 ) . E~
( 8 9 3) ( 9 4 . 2 25)
For
Iet
Los
It
72.4 67.2
8 6 6 3
6.1 8.3
4 2
25)
O.0
intensity
per
(161.4
t
E(level)
86
100 d e c a y s ,
17 n o r m a l i z a t i o n : E7
from
67.2 72.4
1
1
For
absolute
7.81
7(145Nd)
from
Measured: Ea 40
t
a
For
7 (596r65)
74To04,59Br65 e ( g . s . ) = 8 6 % 6. Comments
M u l t . : a ( K ) e x p = 3 . 3 , K / L = I . I 2. 15 f r o m a(K)exp(72V+67V)=3.33 14 Mult.: a(K)exp=3.33 (596r65), a(K)(67V)=3.37, I(727)/I(677)=3.35 9 (79To04), K/M=19.4 (59Br65).
9.62 3.65
multiply
radiations
by
from
0 . 0 1 8 5 20.
~45pm
a
Decay
62Nu01
fat 2.8.10
0.0
intensity
per
-5
100 d e c a y s ,
multiply
t4Spm M e a s u r e d : 7 ( 7 7 R o 2 9 ) , ce, K x Others: 70Be65, 81BeYJ.
o.o 61.22
2
7/2+
492.55
7
3/2+
Adopted
values.
Levels ray,
by
2 . 8 , 1 0 -?.
from
7-K x
ray
145Sm coin,
~ Decay
7(t)
77Ro29,83Vo10
(596r65).
Tl/2
J~?
E(level)
3
E(a), Ia.
E( 1 e v e 1 )
2240
E Decay
a
E2 M1
a
145pm
ray)/l(677+727)=23.8
100 d e c a y s ,
25
1.0.
Mult. 8
per
4
by
I(K x
29.9 100
intensity
Iv: ~ ( L + M + N ) / e K ( e x p ) = 0 . 8 5 3 (59Br65); eK(exp)/e(K+L+)=0.606 (74To04). Ev: d e t e r m i n e d from ~K(exp)(g.s.)/~K(exp)(67+72 levels)=5.9 (596r65).
multiply
I7 t
E(level)
67.2 72.4
6
Comments
Comments
5/2+
2.64
ns
6
'45Pm
TI/2: w e i g h t e d average of 2.69 ns ( 5 9 B r 6 5 ) , 2.7 n s 2 ( 6 2 B e 3 1 ) .
Levels
from
t44Nd(aHe,d)
9 (67Ba22),
E=24
MeV
2.61 n s
80Stl0
E = 2 4 MeV (73MAYO), 35.2 MeV ( 7 6 S h 0 5 ) . M e a s u r e d : ¢7(E,6), DWBA a n a l y s i s . E(level)
J~?
0.0 60 498 728 773 796
5/2+ 7/3+ 3/2+ 1/2+ (3/2)+ 11/2-
L 2 4 2 0 2 5
S'~
E(level)
2.33 1.59 0.02 0.52 0.15 8.77 Continued
on
next
j~t
960 1059 1214 § 1226 1260 1386 page
(footnotes
48
L
S '~
(3/3)+ 1/2+
2 0
1.41 0.56
(3/a)+
2
0.25
7/2-
3'
0.19
at
end
of
table)
10 ( 6 7 M y 0 1 ) ,
2.6 n s
2
145D--
-61.II184--~
NUCLEAR
145Pro Levels f r o m E(level) 1489 1507 1563 1716 1753 1753 1809 1849 1978 2008 2112
J~g
L
S'$
(3/2+) (3/2)+
(2) 2
(0.16) 0.23
I/2+ 1/2+ (1/2+)
0 0 5 (0)
(11/2)-
I/2+
0
(3/2)+
2
1/2+
0
DATA
145D--
61.[I184--~
SHEETS
144Nd(3He,d) E=24 MeV j~t
E(level) ~168 2190
(3/2+)
2210
(3/2+)
L
2294# 2329 2401 2431 2474 2562
1.3
(0.023) 0.18 0.53 0.12
s'~
(2)
(0.18)
(2)
(0.12)
# #
2282#
0.030 0.036
80Stl0 ( c o n t i n u e d )
# #
A d o p t e d values. A l m o s t all expected strength for L=2 d5/2 levels was observed in transition to 5/2+ therefore, L=2 excited levels populated in this reaction are probably 3/2+ (d3/2), 5 For d o / d O ( 4 0 °) see 80St10. § Observed in 73MAYO. # F o r d o u b l e t 2 2 8 2 + 2 2 9 4 L=2, S'=0.26.
7(145pm) f r o m
t45Nd(p,n7) E = 5 . 5 - 8
MeV
76Sh05,77Na07
J1r(145Nd)=7/2-. Measured: 3", 3"3", 3"(0), 3'(t) ( 7 6 8 h 0 5 ) , 7, ce ( 7 7 N a 0 7 ) . T L / 2 ( 7 9 4 . 9 3 [ e v e l ) = 1 8 . 3 n s 19 f r o m 7 6 8 h 0 5 .
E~ 61 x 149 190 x208 251 x272 x333 432 456 492 570 599 633 653
E(level) 3 7 2 3 7 1 2 4 4 5 4 4 0 2
E7
17 t
61 . 3
2 2 4 2 4 3 3 3 3 2
1397.2
1648.9
3
1102 1207 492 1284
3 4 2
1347 714
660
4 0 5 9 7 5 5
2.3 4.8 13.2 5.1 10.5 7.1 12.6 28 .7 62.5
14.5 33.7 9.5
IO0.O
E(level)
657.6 870 O x 6 8 7 35 x 7 2 8 35 733 6 750 6 775 5 823 5 x835 I$
7 14 17 17 21 31 33 41 42 35 52 38 37
x883 884 958 x1165
x1441
8 6 7
3 2
1494 670
4 O
46.4 68.8 4.45 13.85 36.2 111.0
3 3 2 2 3 4
794 750 636 884
13"t
6
4
884 958
4
11 38 43 72.6 43 17.9 41 11.45 9
9 6 8
3 4 4
36 37
<26 <20.0 23.6 49 33.15 50 8.45 21
6 7
I~ 3 65 3
t At E(p)=6.6 MeV. $ Observed only in 77Na07 at E=8 MeV. x 3" ray not placed in level scheme.
7(145pm)
from
146Nd(p,~n~)
E=14.9-~0.2
MeV
80Ko16
Measured: 7, 73' a n d 73"(t) at E=14.9 MeV, 3'(e) at E=16.8 MeV, ce (at E=14.9 MeV). TL/z(61.23 5 level)=2.5 ns 3. T I / z ( 7 9 4 . 6 4 l e v e l ) = 1 6 . 3 ns f5. E7
E(level)
44 61 80 x112 122 x146 153
2? 23 5 76 5 10 5 80? 5 9 2 78 5
155 168 190
15? 4 04 5 35 5
223
50
8
794.6 61.23 750.4 836.5 823.5 1502.0 660.5 1397.2 883.8
Mult. $
17 ~
410 35 8 15 10 21 27 63 106 47
50 5 2 2 2 3 3 5 10 4
Continued
on
Comments
Mr+E2
Mult.: A2=-0.05 1, A4=-0.03 2.
Mt
Mult.: A2=-0.15 3, A 4 ~ 0 .
next
page
(footnotes
49
at
end
of
table)
g.s.;
NUCLEAR
161LL==84 45D~ -5
7(i(SPm) E7
E(level)
234,00 x246.5 251.48 283.17 307.26 331.00 370,3 388.1 410.4 432.1 456.4 465.5 468.4 492.5
4 4 2 2 2 4 3 3
493,2 510.4 529.4 537.0
5 4 3 4
545.5
4
564.8 570.4 599.1 608.6 x616.4 622.3 633.3 646.8 652.4
3 3 5 4 4 4 3 4 4
857.1 660.5 665.5 669.7
5 5 4
674.9 711.1 721.8 733.4
742.1 750.4
762.3 775.3 794.6 799,4 819.2 822.7 883.8 958.0 1040.7 1154,1 1215.2 x1224.7 x1228.8 1233.6 x1244.4 x1300.8 1311.7
6
726,5
7 7 8 8
1648,7 1384.9 1101.8 823.5 1206.8 1101.8 1233,9 1101.8 1206.8 958.0 1291,9 492.5
1
1206.8 1346.9 1365.9 1206.8 1315.2 1057.3 1284.0 660.5 669,7 1291,9 1346.9 1397.2 713.6
from
14°Nd(p,gnT)
177 80 20 105 43 80 190 26 28 60 120 250 35 35 1000
10 4 10
4 10 15 7 7 10 12 15 8 8
45 7 9 0 15 42 5 50 7 21 5 1 3 4 14 1 8 0 15 660 5 0 180 15 260 20 50 7 120 15 130 15 1800 i O 0
15 10 15
SHEETS
E=14.9-20.2
MeV
Mult.$
(continued) Comments
0.34
5
E2+(MI)
El MI+E2
80Ko16
@
D MI+E2
Mr+E2 MI+(E2)
18415ao1 _1 1 8 4 - -
0.07
I
Mult,: Mult.: Mult.: Mult.:
A z = - 0 . 1 6 I, A 4 = + 0 , 0 9 t. a ( K ) e x p = 0 , O 7 0 12. a(K)exp=O.062 9; A 2 = - 0 . 2 8 3, A 4 = - 0 . 1 2 a(K)exp=O,056 7, K / L = 8 , 8 6.
Mult.: Mult.: Mult.:
a ( K ) e x p = 0 . O l 9 4, ' a(K)exp=O.O06 2; A 2 = - 0 . 1 1 a(K)exp=0.025 4; A 2 = - 0 . 0 7
5.
6, A4~.0. 2, A ~ ¢ 0 .
MI(+E2)
Mult.: a ( K ) e x p = O . 0 1 7 A(=0.0.
2, K/L=B.2;
(MI+E2)
Mult.:
a(K)exp=0,017
4.
MI+E2 El (E2)
Mult.: Mult,: Mult.:
a(K)exp=O,Oil 2; A z = - 0 . 0 6 a(K)exp=0.003 I; A z = - 0 . 0 0 a(K)exp=0.0079 15.
E1
Mult.:
a(K)exp=O.O038 12; A 2 = - 0 . 0 4
E2 E2 MI+E2
M u l t . : a ( K ) e x p = 0 . 0 0 4 2; Az=+0.23 3, A ( = + 0 . 0 3 5. M u l t . : A2=+0.18 6, A ( = - 0 . 0 5 8. M u l t . : a ( K ) e x p = 0 . O 0 4 6 15, K / L = 7 . 6 5; A~=+0.25 1, A 4 = + 0 . O 0 I.
0.63
3
Az=-0.004
6, A ( = + 0 . 0 9 8, A 4 ~ 0 .
9,
9.
2, A4~.0.
1365.9 1493.6 860.5 1502.0 669.7
95 105 160 240 940
20 50
MI MI+(E2) E2 MI+E2
5 4 5 3
1388.5
40 140 50 520
10 15 10 50
M2
Mult.: a(K)exp=0,020 B ( M 2 ) ( W . u . ) = 0 . 3 0 5.
5 3
1455.7 750.4
50 1540
10 80
E2
4 3 5 5 5 5 3 4 5 5 5 5 5 5 5 5 6
883,5 836.5 794.6 1291.9 1311.7 883.8 883.8 958.0 1101.8 1215.2 1215,2
110 1250 25 40 120 210 250 390 140 42 150 90 140 115 155 160 65
15 60
Mult,: a(K)=0.00376 used for normalization of other a ( K ) e x p , K / L = 6 . 2 f2; A 2 = + 0 , 1 3 4 4, A ~ = - 0 . 0 2 2 5. M u l t . : a(K)exp=O,O056 1,2. Mult.: a(K)exp=0.0045 /0; A 2 = + 0 . 1 8 1, A 4 = - 0 . 0 6 I.
3
1558,3 794.6
1233.9
1311.7
10 8 15 20 30
40 15 8
0.44
7
MI+E2 E2 E3
E2+MI E2+MI
1.1
MI+E2
15 15
20 15
20 20 I0
t" Measured at E(p)=15.8 MeV. ;[c a(K)exp were normalized to a(K)(E2)
x "F ray
DATA
for 750.47.
not placed in level scheme.
50
4
M u l t . : A 2 = - 0 . 2 9 6, A 4 = + 0 . 0 8 9. M u l t . : A z = - O . 1 9 5, A ~ 0 . M u l t . : A 2 = + 0 . 2 6 4, A 4 ~ 0 . Mult,: a(K)exp=0.008 I, K / L = 6 . 8 A 4 = - 0 . O 0 2.
Mult.: a(K)exp=0.0037 Mult,: a(K)exp=0.O038 Mult.: a(K)exp=0.0030
8; A 2 = + 0 . 1 3
3; A2=+0.06
1,
3, A ~ 0 .
10. 10, A2=+0.31
10; A2=-0.08
3, A4=-0.05 5. 3, A4=+0.06 4.
5
16425~~, ~ 8 3 -I
NUCLEAR
la~Sm Q(fl-)=-2662.2 E(level)
2
1876.64 1972.63 1996.90 2049.9
2110 2133 2155 2160 2192 2229 2276 2293 2297
24
4 3 3 7 5 3 4
3 3 3
d
3
36
ps
12
13/2+
15
ns
2
9/2t/2+ (15/2)+ 11/23/2+ i/2-t 3/2+
5/29/2(t5/2+)
6 4
7/2+?
6 9 9
7/2-t
3
Adopted
Levels
85Wa02. Comments
3/2-
9/25/2+
%{=100. /~=0.92 6 ( 7 8 L e Z A ) . J~v: L = 3 i n ( d , p ) , a t o m i c beam (78LeZA). T1/2: f r o m 59Br65. Jvr: L = I i n ( d , p ) , ~ t o 7 / 2 is A J = 2 , E2. T l / 2 : f r o m 7 5 B e 0 9 (145Eu E d e c a y ) . J1r: L = 6 i n ( d , p ) ; 7 t o 7 / 2 is E3 (3,(0) a n d RUL i n ( a , 3 n 3 , ) ) . Tl/~: f r o m ( a , 3 n ~ / ) ( 7 7 H a 0 4 ) ; o t h e r : 12 n s 2 ( a , 3 n T ) (75K101). J~r: L = 5 i n ( d , p ) , 3, t o 7 / 2 is M1. J1r: ~/ to 3 / 2 - is Et, "y3,(0). J1r: -/ to 13/2+ is AJ=I, MI+E2; n o 3, to J<13/2. Jvr: ~, to 7/2-, 13/2+; "~ to 7 / 2 - is A J = 2 Q, 3, f r o m 9 / 2 - is MI+E2. J~r: T t o 1 / 2 + is M I + E 2 . J~r: L=I in (d,p). J1r: ~ to 1 / 2 + is M r + E 2 . J~r: L = 3 in (d,p), 3, to 3 / 2 - is MI+E2. J1r: -/ to 11/2- is MI+E2, T to 7 / 2 - is A J = I MI+E2. J1r: "y to 1 3 / 2 + is D+Q, n o T to J<13/2. J1r: L = 5 in (d,p), I A R data (77CI02), shell m o d e l . J1r: 3, to 7 / 2 - is El, ~, to 3 / 2 - is El.
3
3
60 9 47 7 39 7 3 5 9 6 14 9 5 60 6 0 3 14 9
2329 39 6 2 3 4 0 5 9 14 2346 46 7 2385 89 50 2387 32 8 2425 85 9 2438 0 4 2 4 8 1 9 8 10 2 5 0 8 3 4 16 2513 37 23 2551 9 2 2558 89 14 2629 15 2661 1 7 2678.3 5 2690 2690 2710.3 2724 2750 2784.9 2797
S(p)=6525
145~ 62~m83 -I
SHEETS
T,/z 340
7/2-
893.729
1423.189 1436 30 1469 0 1538 0 1547 31 1607 29 I627 55 1658 50 1706 0 1774 0 1774 1 1804 24 t848 1 1857 68
30;
J~
0.O
1105.0
S(n)=6757.07
28;
DATA
10
(7/2,9/2)3/z-
J~r: ~/ to 9 / 2 - is Et; ¢ d e c a y via 5 / 2 + parent; not consistent w i t h L=I in (d,p). A b s e n c e of p r i m a r y 3 from I/2+ state in t h e r m a l (n,~/) suggests J > 3 / 2 a n d therefore also not consistent w i t h L=I in (d,p). J~v: 3, to 7 / 2 - is MI+E2. J1r: L=t in (d,p), "y to 7 / 2 - is E2. JTr: L = 3 in (d,p). TI/~: u n u s u a l l y s m a l l B(MI)(W.u.)(944.53,) m a y suggest that o b s e r v e d Tt/~ belongs to u n k n o w n h i g h e r level w h i c h d e p o p u l a t e s via 15/2+ 2049.9 level with E'y<944. J~': 3' t o 1 3 / 2 + is A J = I M1 ( f r o m 3,(8) a n d T I / 2 i n ( a , 3 n 3 , ) ) , n o 3, to <13/2. T1/2: f r o m ( a , 3 n 3 , ) ( 7 7 H a 0 4 ) . JTr: 7 to 7 / 2 - is Mr, n o 3, to 3/2. J1r: L=I in (d,p), 3, to 7 / 2 - is E2.
1/2-
J~r: L = I
17/2 5/2+t
J1r: 3, to 1 5 / 2 + is hJ=t, D+Q; n o "/ to J<15/2. JTr: "y to 7 / 2 - is EI+(M2). Jvr: 3, to 7 / 2 - is MI, 3, to 9 / 2 - is MI,E2, n o ~/ to 3/2-,3/2+. Jvr: L = 4 in (d,p), not consistent w i t h tentative 3 / 2 - in (p,p') data for IAR.
3/2-
5/2-t t5/2+
=3
ns
(7/2,9/2)7/2+,9/2+
5/2-
J~:
7 to
5/2-
J~r: J~r: JTr: J1r:
L=3 -y to 3, to V to
17/2+
(5/2
712)-
5/2-
7/2 -t
1/2- 3/2-
(d,p),
7/2-
IAR d a t a
is M I + ( E 2 ) ,
in
(p,p')
7 to
3/2-
(77C102).
is M I + ( E 2 ) .
in (d,p), 7 to 3 / 2 - is MI+E2. 1 3 / 2 + is A J=2, E2; 3, to 17/2 is A J=0, 7 / 2 - is MI, possible 3, to 3/2-. 7 / 2 - is Mr+E2, "y to 3/2-.
J~r: L = I i n ( d , p ) , p r i m a r y -/ i n ( n c / ) E = t h e r m a l . w i t h IAR d a t a i n ( p , p ' ) (77C102). J~r: L = 6 i n ( d , p ) . E ( l e v e l ) , J 1 r : IAR d a t a i n ( p , p ' ) (77C102). J~r: 3, t o 1 7 / 2 is A J - I , D; n o T t o J < 1 7 f 2 .
13/2+,11/2+
6
in
712191~
16 18
6 12
Continued
on
next
pa~e
(footnotes
51
at
end
of
table)
MI+E2.
Not
consistent
145~
62bm83-~~
NUCLEAR
DATA
145~ 62 . . . .
SHEETS
14~Sm Adopted Levels (continued) J~
E(level) 2 8 2 4 14 2 8 4 2 19 2 9 2 6 13 2931.6 5 2 9 6 0 16 2978.3 7 3 0 1 8 13 3 0 9 6 10 3118.5 8 3120.1 9 3140.1 5 3 1 8 3 15 3 2 4 6 20 3 2 7 5 20 3 3 0 2 13 3 3 3 5 17 3366 f4 3369.7 7 3 3 9 7 14
t From
Comments
21/2+
J~:
21/2(+)
J~r: 7 t o
7 to
17/2+
19/2
23/2 23/2 3/2-
J1r: Jw: Jlr: J1r:
25/2+
J~r: 7 to 2 1 / 2 +
is AJ=2,
E2; ? to
729
1105
0
1423 1436 1469 1538
189 30 0 0
1607.29 1627.55 1658.50 1706.0
1774.0 1774.1 1804.24
1848.1 1857.68 1876.64 1972.63
1996.90
is A J = I ,
D.
L=3 i n ( d , p ) , J ~ r = I / 2 - f r o m IAR i n ( p , p ' ) (77CI02). 3, to 2 1 / 2 is A J = I , D; n o 3, to J < 2 1 / 2 . 7 to 21/2 is A J = I , D; no 3' to J<21/2. L = t i n (d,p); IAR data i n (p,p') (77C102).
is A J=2, E2; n o
7 to J<21/2.
3433 3446 3480 3506 3534 3558 3596 3633 3655 3679 3726 3783 3833 3856 3882 3916 4010 4027
17 20 20 20 2O
14 14 21 21 14 14 15 15 21 f5 20 20 15
3'(6) in c decay of oriented nuclei t45Eu (82De26).
E(level)
1547.31
19/2
is A J = I , d; n o 7 to J s l S / 2 .
145Sin Adopted
893
E(level)
E7 893 1105 1423 542 364 433 1538 111 653 1547 713 191 733 764 1658 168 283 1706 669 1774 256 910 1804 1848 434 1857 453 1876 314 365 536 1078 1972 338 449 1103 1996
729 24 0 2 189 564 17 0 2 0 3 0 2 087 24 512 19 21 4 551 27 24 1 45 37 7 7 5 18 44 2 0 3 1 3 0 3 0 3 0 3 91 6 55 6 21 4 1 3 414 25 68 5 46 8 64 6 13 5 37 5 67 25 909 30 74 6 33 6 7 3 40 12 25 95 8
17
"Mult.
100 100 100 100 100 22 9 1 0 0 13 13.3 4 i00 8 0.5 ! 100 1 0 0 20 1.8 6 11.7 2 I00 5 54 12 27 4 lOO 23 100 10O 1.9 4 5.9 3 100 8 IO0 49 4 100 5 2.5 3 100 5 12.2 9 1 4 . 3 12 6 100 4 21.1 12 1.0 I
E2 E3 M1 E1 MI+E2
MI+E2 E2 MI+E2
+0,04
I00 5
MI+E2
+0.241
Continued
radiations
7
6
a
Comments
B(E2)(W.u.)=0.61 21. B(E3)(W.u.)=32 5.
Q MI+E2 E1 M2+E3 MI MI+E2 (El) MI+E2 MI+E2 MI+E2
-1.98
6
+0.62
+12-10
+0.084 +0.16 -2.07
1.55
0.277
16
7 6
MI+E2 MI+E2 M1 E1 El
0.124
E1 E1
MI+(E2) MI+E2 MI+(E2) MI+E2
on
next
+0.03 12 -1.29 +6-7 +0.04 +27-29 -2.2 +7-13
+1.8
pase
0.073 0.034
1
+14-8
0.044
11
(footnotes
52
0.028
at
end
of
table)
83 -
2
145~ 6 2 ~ L - - 8 3 -3
NUCLEAR DATA SHEETS
145Sm Adopted E7
E(level) 2049,9 2110,60 2133.47
2155.39 2192.96
580 944 252 2110 474 526 588 1239 2133 2155 388
2329.39 2340.59
2346.48
2385.89
2387.32 2425,85
2438.0 2481.98
2508.34 2513.37 2551.9 2558.89
2710.3 2784.9
2931.6 2978.3 3118.5 3120,1 3369.7
radiations (continued) a
Mult.
9 9 2 6 9 16 60 9 84 9 03 5 0 1 16 57 6 41 2 32 7 9 5 18
2192.86 2229.9 2276.60 2293.03
7
7
2.39 100 8 28 9 100 6 52 33 48 . 8 24 11 2 55 54.8 1 0 0 12 100 33 9 100
180,0 2 2278 58 6 869 81 29 2292 81 2 3 2329 37 6 185 23 42 463 67 58
100 100 100 75 100 26 74
917.13 2340.8
51 100
20
5
6
50 25
2 2 2 2 3 2 2 2
+0.31
+10-9
MI+E2 E2 MI,E2 MI,E2
-0.61
+7-9
0.0187
Mult.: see c o m m e n t in i4SEu decay data set. Mult.: see c o m m e n t in 14~Eu t decay data set.
M1,E2 D+Q EI+(M2) M1,E2 M1 MI,E2
5
+0.067
30
Mult.: see c o m m e n t in 14~Eu E decay data set.
100 7.4 2.27 100 3 40.0 8 7.6 15 100 9 100 56 6.7 22 10 6 80 3 3 5 12 100 4 4 7 16 100 6 100 46 9 1 0 0 17 8.3 42 IO0 10 4 10 4 1 0 0 15 20 2 100 7 100 8 6.7 26 100 100 100
3 3
MI+E2
MI+E2
8 9 22 7 7
2
0.0229
20 I I
2387.32 292.25 1002.95 1532.05 2425.80 208.1 1333.0 485.05 823.30? 1588.397 2481.99 1014.35 2508,34 172.39 2513.37 2551.9 218.19 425.50 2558.82 480.4 346.9? 555.0? 735.0 221,0 493.6 268.0 540.0 140.2 188.5 438.1
11 14 40
B(MI)(W.u.)~8.5= I0 -s .
(El) MI
Mult.: see c o m m e n t in t45Eu t decay data set.
821 3 1 26.7 24 1.04 31.3 63 O0 3 35 6 100 5 75 4 4.8 13
2
Mt
E1
83 71 4 18 9 71 18 39 30 31
58 52 25 10 25 20 38 23
Comments
14 31
212.92 349.46 373.59 887.90 1452.51 2346,46 757.59 838,638 949.529 2385.22
3 2
145¢m 6 2 ~ = 1 L 8 3 _~
M1 MI+(E2)
-0.19
+21-41
+0,81
+18-I0
0.048
M1
Mi+(E2) MI MI M1
See c o m m e n t data set. (MI) MI+E2 MI MI MI+E2 E2
M1 MI+E2 MI+E2
El
(Mr) D
D D E2 D
0.0133
D D E2
0.018
53
in
t45Eu
c decay
145~_ 6 2 ~ t I 1 8 3 - ~~
NUCLEAR
fl+,e Data
from
DATA
SHEETS
laSSm ~ Decay
1642 5~ 8~3
77Ro29,83Vo10
M e a s u r e d : 7 ( 7 7 R o 2 9 ) , ce, K x r a y , - / - K x r a y c o i n , ~/(t) ( 5 9 B r 6 5 ) . Others: 70Be65, 81BeYJ. For i n t e r n a l bremsstrahlung s p e c t r a see 5 9 B r 6 5 , 7 7 R o 2 9 . E(level)
Ee
(127 (559
3) 3)
492.55 61.22
(620
3)
0.0
Iet$
Lo~
[t
0.0034 93 2
10.7 7.78
7 2
9.0
Comments It: e K ( e x p ) = 0 . 2 7 3 ( 7 1 M y 0 1 ) ; e ( L + M + N ) / e K ( e x p ) = 0 . 6 1 (59Br65). It: t K ( e x p ) = 0 . 8 2 8 20, e L ( e x p ) / e K ( e x p ) = 0 . 1 6 2 18 ( 8 1 B e Y J ) ; c(L+M+N)/EK(exp)=0.20 2 (59Br65).
!
1
~" e K ( e x p ) ( 6 1 ) = O . 8 2 8 20, e K ( e x p ) ( 6 1 ) / t L ( e x p ) ( 6 1 ) = 0 . 1 6 2 18 (81BeY J); e(L+M+N)(61)/~K(exp)(61)=0.20 2, e ( L + M + N ) ( 4 9 3 ) / z K ( e x p ) ( 4 9 3 ) = 0 . 6
eK(exp)(g.s.)/tK(exp)(61)=0.08 2, I (59Br65); ~K(exp)(493)/zK(exp)(61)=0.428
29
(83Vo10) ~t F o r
intensity
per
100 d e c a y s ,
multiply
by
1.0.
"y(145pm) f r o m I')' n o r m a l i z a t i o n : E7 $
eK(exp)(g.s.)/eK(exp)(61)=0.08
E(level)
61.22
2
431.4
from
5
492.55
I ? ~§
61.22
7
145Sin ~ Decay
Mult. MI+(E2)
i00
492.55
0.0004
492.55
0.027
2 (59Br65). 6
a
<0.045
6.3
Comments 5
Mult.: a(K)exp=5.3 1, K / L = 6 . 5 4, L / M = 5 . 1 3 ( 5 9 B r 6 5 ) ; K / L = 8 . 1 8, L / M = 4 . 0 8 ( 5 9 D z 0 6 ) ; L 1 / L 2 = I I . I 12, L I / L 3 = 3 9 6, L 2 / L 3 = 3 . 5 6 ( 6 7 B a 2 2 ) . 17:I(431"y)/I(4927)=0.016 I (77Ro29); other: <0.022 (83Voi0). E~: o t h e r : 4 9 2 . 3 1 15 ( 7 1 M y O l ) .
]
t From 83Vo10; 77Ro29 did not observe the 120.87 reported by $ F r o m 8 3 V o 1 0 e x c e p t 431"? w h i c h is f r o m 7 7 R o 2 9 . § For absolute intensity per i00 decays, multiply b y 0.127 17.
7(145Sm) Measured:
77Ro29,83Vo10
from
144Sin(n,7)
70Be65.
E=thermal
78WaZM
~.
E7
E(level
3617.1 4078.8 4596.7 4624.1 4784.5 5149.8 5862.96
6757 6757 6757 6757 6757 6757 6757
4 4 4 3 3 2 20
07 07 07 07) 07) 07) 07)
1.29 8 3.36 15 2.35 10 4.96 21 16.5 7 48.6 20 10O 4
t45Sm
Levels from
144Sm(d,p),(d,pT)
75Bo22,67Ch16
E = I 9 MeV 7 5 B o 2 2 ) , 12 MeV ( 6 7 C h 1 6 , 6 5 K e 0 9 ) , 15 MeV ( 6 6 J o 0 2 ) , 5.8 MeV ( 7 4 N o 0 5 ) . M e a s u r e d : o(E,O), DWBA a n a l y s i s (75Bo22,74No05,67Ch16,66Jn02), a(E) (65Ke09), P7 E(level)
T
Jw§
L
S'
0.0 895 4 1108 4 1427 6
7/23/213/2+ 9/2-
3 1 6 5
6.82 2.13 6.44 6.41
1611 1665 1784
1/25/29/2-
I 3 5
1.26 1.25 3.19
18105
9 8 8 8
5/2+
(67Ch16).
Comments
L: 6 6 J o 0 2 r e p o r t supported by
also weak others.
component
with
L=I,
S'=0.06
not
E ( l e v e l ) : 66JOO2 o b s e r v e d l e v e l 1800 w i t h w e a k L = I , S ' = 0 . 0 3 component. J~r: i f i d e n t i c a l with 1804.26 5/2+ level observed in ~ decay.
4.65 Continued
coin
on
next
page
(footnotes
54
at
end
of
table)
-4
NUCLEAR
18425~¢t ~m, 8 3 _ ~~
'45Sm Levels f r o m E(level)
t
L
J~§
a
7/2-
1979
8
3/3-
2002 8 2 1 1 2 5 f4 2138 9 2164 9 2 1 9 9 5 16 2297 9 2 3 4 9 10 2 3 9 0 5 10 2 4 2 9 10 2 4 6 8 5 15 2 5 1 2 5 15 25635 11 26295 15 26615 17 2 6 7 4 10 2 7 2 4 5 16 2 7 5 0 5 18 2 7 9 7 5 12 2 8 2 4 5 14 2 8 4 2 5 19 2 9 2 6 5 13 29605 16 30185 13 3096 10 3131 10 3183 15 32465 20 32755 20 3 3 0 2 5 13 3 3 3 5 5 17
34465
16426~¢I I_1 8 3 - - D
75Bo22,67Ch16 ( c o n t i n u e d )
S'
Comments J1r: o b s e r v e d L=I a n d J = I / 2 - , 3 / 2 - (75Bo22,67Ch16) n o t c o n s i s t e n t w i t h J = 7 / 2 + (14SEu c d e c a y ) a n d w i t h a b s e n c e of p r i m a r y 7 to t h i s level f r o m 1 / 2 + t h e r m a l n e u t r o n c a p t u r e s t a t e in (n,7). E(level): t h i s level was n o t o b s e r v e d by 66Jo02.
1883
33975 34335
SHEETS
*44Sm(d,p),(d,pT)
18549 9
33665
DATA
5/2-
0.67 0.53 2.03
3/2-
0.14
1/2-
0.15
7/2+,9/2+
0.18 0.22
1.5$
15
5/2-
4.65
5/2-
0.43
1.55 tt 55
45 25 0.21,3.55
1+6
25 1.55
E(level): f r o m
75Bo22.
E(level): f r o m E(level): f r o m
75Bo22. 75Bo22.
<135 <135 <135 4.55
25 205 0.55 0,27
5/23/2-
55 35 185
E(level)
55 205
36555 21
14 14
<485
17
<485
20 20 2O 2O
<485
34805 35065 35345 35585 14 35965 14 36335 21
t
/4
95
36795 3726 $ 3783 $ 36335
35
39565
21
25
38825
15
185
$ 205 8$
f4
17$ 145 35 175 11 $
15
15
3916 $ 2 0 4 0 1 0 5 20 40275 /5
5 5
S'
25
245
From 65Ke09. $ Observed only by 65Ke09; relative a (a=lO0 for g.s.). § Adopted values.
7(145Sm) F r o m 67Ch16, E7 d e d u c e d
E7 716 770 895 1084 1108 1243
E(level) 1611 1665 895 1979 1108 2138
E7 1427 1665 1979 2002 2138
from
from
t44Sm(d,p),(d,pT)
E(level) by e v a l u a t o r .
E(level) 1427 1665 1979 2002 2138
55
75Bo23,67ChI6
145~
62~m83-~
NUCLEAR
7(l*SSm) Measured:
E7 140.2 168.0 180.0 188.5 208,1 221,0 268.0 283.1 346.9? 364.0 433.0 438.1 480.4 493.6 540.0 555.07 580.9 669.0 735.0 893.6 944.9 1105.0 1333.0 1423.0 1538.0 1706.0 1774.0
T, 7"Y, 7 ( 8 ) ,
yield,
E(level) 2 3 2 2 3 2 2 3
3118 1706 2229 3120 2438 2931 2978 1706 2784 1469 1538 3369 2710 2931 2978 2784 2049 1774 2784 893 2049 1105 2438 1423 1538 1706 1774
3 2 3 2 2 2 3 3 3 3 2 3 2 2 2 3 2 3 3
~" U s u a l l y
9.7 1.4 33 3 13 1 2.5 6.0 15.0 0.7 1.0 11.0 1.0
10.8 31.0 30 2 1.04 1.0 1.0 1.8 9 .7 2.7 43 . 2 I00 5 33 3 2.5
a(E,8),
0.0 889 7 I103 5 1427 5 1 7 9 3 30 2014 2 7 1 3 30 t
Comments Mult.: Mult.: Mult.: Mult.: Mult.: Mult.: Mult.: Mult.:
MI+E2
Mult.: A ~ = + 0 . 0 3 7, A 4 = + 0 . 0 6 10.
E2 0 E2
Mult.: Mult.: Mult.:
Aa=+0.37 A2=-0.03 Aa=+0.39
6, A 4 = - 0 . 1 8 11. 6, A ( = + 0 . 1 8 8. 4, A 4 = - 0 . 0 3 5.
4 4 3
Mi+E2
15
D
5 30
E2 MI E3 E2
Mult.: Mult.: Mult.: Mult.: Mult.: Mult.:
A2=+0.05 Aa=-0.21 A2=+0.30 Aa=-0.22 Aa=+0.42 Aa=+0.30
6, [I, I, 3, 2, I,
Mult.: Mult.:
A ~ = + 0 . 2 5 10. A a = + 0 . 4 9 10,
5 5 12 I 4 10
4 8 25
Aa=-0.18 Aa=+0.38 A~=+0.09 Aa=-0.18 Aa=+0.31 Aa=-0.21 A~=-0.21 Ae=-0.03
f, A 4 = + 0 . 0 1 [8. 8, 4 4 = + 0 . I 0 8, A 4 = + 0 . 1 4 2, A 4 = - 0 . 0 7 5, A ¢ = - 0 . 0 ~ 17, A a = + 0 . 1 7 2, A 4 = + 0 . 0 8
A¢=+0.19 A4=+0.I0 A4=+0.19 44=+0.I0 A4=+0.05 44=-0.01
1. 10. lO. 7. 3. 11. 2.
8. I0. 2. 8. 3. 3.
5
6
Q MI+E2
1.0
5 El; t h e r e f o r e ,
Levels
from
it
was
assumed
144Sm(ct,3He)
A4=+0.35
that
17.
D+Q is MI+E2,
E=40
MeV
not
El+M2.
81Rel0
DWBA a n a l y s i s . L
da/d~(30°)
7/23/213/2+ 9/211/2-
3
229
8
6 5
398 166 49
10 7 5
13/2+,II/2+
6
36
Z(level)
77Ha04
MeV
D Mr+E2 D+Q D Mr+E2 D D
6
t4SSm Measured:
8 3
2.6
with
E=37
~62,~ 4 5 ~ ~ L 8 3 _ nv
Mult. ~
4.5
compete
t44Nd(a,3nT)
SHEETS
~'(t) ( 7 7 H a 0 4 , 7 5 K 1 0 1 ) .
I7
5 0 9 I 0 6 3 0 9 0 0 7 3 6 3 9 9 0 9 6 9 0 0 0 0 0 1
M2 c a n n o t
from
DATA
j~t
$
Comments
da/dD(30°):
observed
at
60 °.
3
Adopted values. In ~b/sr.
t4SSm Measured:
E(level) O.0 890
from
t4¢Sm(13C,t2C)
E=72
MeV
75Th09
ff(E,e), DWBA a n a l y s i s .
J~ 7/23/2-
CzS 0.60 0.44
1610
I/2-
0.82
1660 2000 2170
5/2-
0.41
I" Adopted
Levels
Comments C2S: used for normalization
of other C2S.
E(level),J~r,C2S: doublet E(level),Jvr,CaS: doublet
E=1972 3/2-, CaS=0.18 a n d E=2002 5/2- CaS=0.24. E=2134 3/2-, C2S=0.I0 a n d E=2155 I/2-, CaS=0.20.
with with
values.
56
145p, 63~82
-1
NUCLEAR
145Eu Q(fl-)=-SO50
50; S ( n ) = 1 0 4 2 4
E(level)
J~?
0.0
5/2+
329.92 716
21; 8 ( p ) = 3 3 1 2 . 5
7
0 3
808 1041 1459 1567 1600 1601 1758 1761 1765 1828 1844 1845 1880 1915 2027 2042 2048 2054 2079 2114 2149 2188 2203 2244 2284 2318 2321 2327 2349 2402 2416 2422 2463 2487 2494 2504 2525 2544 2562 2573 2585 2606 2642 2699 2742 2754 2779 2813 2819 2836
33 5 71 6 7 1 12 7 26 6 2 4 O3 6 32 8 8 1 5 4 6 4 32 9 62 5 5 2 8 9 8 1 1 3 6 4 4 4 5 1 4 68 8 72 7 3 6 0 ! 25 9 8 1 3 1 5 1 2 2 88 8 41 9 2 2 9 7 5 2 6 4 7 1 1 2 2 1 7 I 7 I 1 t 9 1 5 5 1 i 4 6
2838 2859 2862 2911 2918 2971
7 2 7 l? 9 8
1 1 6 7
Adopted
SHEETS
145W, 63~uu82
Levels
85Wa02. Comments
Tt/z 5,93
d
4
7/2+ 11/2-
28
DATA
490
30
ns
1/2+
3/2+ (7/2)+
%r+%fl+=100. Tt/2: f r o m 80Ho33, 70Ch09; o t h e r s : 5,93 d 10 (67Hi05), 5.95 d 10 63Fr02, see also 63We04, 65De29, 67Ob03. J1r: a t o m i c b e a m ( 7 6 F u 0 6 ) , L=2 i n (SHe,d), /~=1,1 3 ( 6 3 V a 0 2 , 8 3 K r 1 9 ) . Jlr: L = 4 i n (SHe,d), ~ f r o m 1 1 / 2 - i s o m e r h a s m u l t higher L = t (RUL). p~=+7.458 44 (80K107,79K102), Tl/2: f r o m IT d e c a y ( 7 5 F r 1 8 ) . J1r: L=5 i n (3He,d), 3" to 7 / 2 + is M2. J~r: L=0 i n (3He,d). J~r: L=2 i n (3He,d), log f t = 6 . 7 4 v i a 1 / 2 + p a r e n t ,
3/2+$
J~r: JTr: JTr: J1r:
13/2(5/2)+
J1r: 3, to 11/2- is A J = I MI+E2, JTr: L = 2 in (SHe,d), n o ~ d e c a y
11/23/2+
L=4 3' to L=2 3" to
in (~He,d), possible 3" f r o m 3/2+. 11/2- is A J = 0 MI+E2. in (SHe,d), log ft=5.76 via 1 / 2 + parent. 1/2+.
excit. via I/2+
parent
(log ft>8.2).
3/2+,I/2+#
3/2+$ 3/2+*
J1r: L = 2
in (SHe,d).
3/2+$
15/2+
J1r: "7 to 1 3 / 2 J1r: -y to 11/2-
15/23/2+~ (3/2+)§
3/2+$
is A J = l is A J = 2
I/2+
JTr: L = 2 in (SHe,d). J~r: if identical w i t h
3/2+$ 15/2-
J1r: 3, to 1 1 / 2 -
(3/2+)§
El, excit. E2, excit.
2480
is A J = 2
12 level w i t h
L=0
in (SHe,d).
E2, excit.
3/2+$
17/219/2-
J1r: 3" to 15/2- is A J = I 5.5
ns
5
19/221/2-
MI+E2,
3" to 13/2-
Tt/~: f r o m (a,p2ns') (79Ha48). J~r: 3" to 15/2- is A J = 2 E2, excit.
Jvr: 3, to 15/2J~r: 3' to 1 9 / 2 -
is A J = 2 is A J = I
E2, excit. MI, excit.
! ! Continued
on
next
page
(footnotes
57
at
end
of
table)
is A J = 2
E2.
than
-1
145~ -631"'U82--;~
NUCLEAR
*4~Eu Adopted
j~t
E(level) 2988.1 3001.5 3062.14 3092.0 3101.1 3176.3 3183.0
8 2 2 2 8
4069.9 4122.8
30 30 3 4 9 3
4131.4 4156.7 4184.0 4258.6 4275.9 4281.8 4308.6 4364.8 4390.7 4410.1 4424.0? 4428.3 4432.0? 4436.1 4454.4 4463.8 4472.8 4496,6 4502,8 4517,9 4536.9 4547 2 4555 4 4566 4 4577 9? 4593 0 4634 6 4645 6 4656 3 4663 8 4685 4 4700 3 4709 9 5152 2
Jvr: ? to 21/2 is A J = I MI+E2.
3/2+~
3/2+t 3/2+ $
3/2+~
(3/2+)§
3/2+ ~ 3/2+t
(3/2+)
j~t
1
10
Comments
(3/2+)§ 27/2+
J1r: ? to 2 5 / 2 + is A J = t MI+E2, yield.
3/2+t,
3 3 1 2 1 3 1 3 2 I
3/2+~ (3/2+)§ 3/2+t 3/2+t 3/2+$ 4
(3/2+)§
1 4
3/2+$ 3/2+)§
1 9 6 3 1 1 4 5 1 1 1
3/2,1/2)# 3/2+,1/2+)#
3/2+$
3/2+t 3/2+)§ 9
2 2 9 9 2 6 3 4
3/2+)§ 3/2+)§ 3/2+t
3/2+~ 3/2+~ 2912
J~: 3, to 2 7 / 2 A J = I d, yield.
§ 9340 10210 10780 10940 Ii000 11140 11220 11320 11340 11490 11500 11640 11690 11780 12040 12160 12350 12430 12490
3/2+~ 25/2+
JTr: ? t o 2 3 / 2 is AJ=t El, yield.
3/2+$
30 1
6 3 ~ . 6 2 - ~o
S(level)
Comments
(3/2+)§
23/2-
1 4 5 L~,
SHEETS
Levels (continued)
4
2
3199.1 2 3220 6 1 3229 7 10 3238 0 3 3 2 5 3 6? 3 3261 1 2 3267 2 3 3280 9 2 3312 5 2 3343 5 3 3383 2 3 3 8 9 17 4 3397 6 2 3408 9 2 3411 6 2 3444 2 2 3451 6 20 3507 4 ? 20 3 5 2 0 O? 7 3525 67 7 17 5 3547 3561 9 30 3576.4? 4 3598.6? 3 3620.2 4 3628.3 2 3643.8 3 3675.7 2 3705.4 2 3738.9 20 3747.2 3 3768.9? 4 3847.9 2 3879.8 20 3888.9 4 3920.7 5 3931.7 6 3939.3 7 3944.6 30 3949.8 4 3902.9 5 3976.3 9 3988.9 4003.9 4014.1 4021.6 4023.8 4044.5 4047.9 4051.7
DATA
(3/2+)§
In establishing the values of aJvr=2 yes w e r e ruled out. c ~: log ft<8.0 via I/2+ parent, q, § log ft<8.0 via 1 / 2 + parent, 7 # log ft<6.2 via 1 / 2 + parent. @ Analysis of I A R in (p,p') o n
J~r, the following a s s u m p t i o n s transitions w i t h log ft<6.2 are to 7/2+. to possible 7/2+. polarized
p.
58
w e r e tlsed. For AJTr=0,t no.
7/2-@
3/2-~ 9/2-@ 1/2-~ 5/2-@ 9/2-@ 7/2-~ 3/2-~ 5/2-@ 3/2-@
t/z-@
(3/2-) @ 5/2-~
5/2-@ 7/2-@ (5/2-)@ (11/2-) @
1/2-@ 3/2 -@ e transitions
with
log ft<8.0
is
16435~~u,8 2 - - ~
NUCLEAR
q
DATA
145Eu Adopted E(level) 329.92 716.0
808,33 1041,71 1459.7
1567.12 1600.26 1601.2 1758,03
1761.32
1765.8 1828.5 1844.6 1845.32 1880.62
1915.5 2027.8 2042.9 2048.8
2054.1 2079.1 2114.3 2149.6 2188.4 2203.4 2244.4 2284.1 2318.68
2321.72
3337,3 2349,0 2402,25 2416,8 2422.3
2463.5 2487.2
E7 329.9 386.6 716.0 808.4 1041.8 1129.8 1459.6 1567,2 1800,1 885,2 716,2 949.7 1427.9 1757.9 719.9 952.6 1430.8 1436.2 1499,1 1128.6 1845.4 838.8 1072.3 1880.6 1915.5 1220.3 2037.8 1334.4 2042.9 287,2 589.0 1719.1 2049.1 2054.1 1750.17 2079.1 514.07 1784.4 2149.6 1380.1 2187.8 1872.6 2203,4 399,8 1568.1 751.0 1988,5 2318.9 722.0? 754.6 1513.4 2332,0 2327 3 2349 0 1593 8 305 5 2416 8 310 1 854 I 1381.0 1613.9 1421.7 2463.3 1678.6 2157.9 2487.8
I 3
3 1
I 1 3 1
1 3
2 ! 20 1 1 3 4 2 3 3 1 1 1 !
2 20 1 20 1 20 20 2 4 ! 20 1 20 ! ! i 3 20 1 3 3 20 1 1 20 2 2 4 7 1 1 30 1 30 20 20 1 1 8 2 20 3
100 100
1 8435~wu .8 2
31 radiations
a
17
Mult.
6
if MI M2
0.0699 0.1678
E3
0.01341
28 2 100 100 30 4 100 11 100 100 100 0.21 2 2.00 12 0.35 9 tO0 6 7.0 7 100 6 4.1 8 100 100 109 100 0.92 6 8.66 100 6 tO0 10.8 27 100 7 8 4 14 100 20 0,7 1 1.4 3 100 7 14 2 100 30 5 I00 2 1.8 5 I00 8 100 100 29 2 6 11 24 3 100 7 IO0 100 17 3 1 0 0 11 58 4 6 ,2 10,2 100 6 34 4 100 100 100 2.1 6 100 6 0.8 2 26 4 42 6 100 8 100 14 I 0 0 14 100 15 82 8 6 9 13
SHEETS
Comments
Mult.: see 79K102, B ( M 2 ) ( W . u . ) = 0 . 1 8 3 19. B ( I ~ 3 ) ( W . u . ) = 4 . 0 5.
MI+E2
~: - 2 . 5
D+Q MI+E2
<~: +1,30
E(level) 2494.88 2504.41
E1
2525.2 2544,9 2562.5
E2
C o n t i n u e d on next
2573.6
2585.7 2608.1 2642.2
2699.7
2742.7 2754.1 2779.9
pa~e
+15-25.
E3'
at
Mult.
17
1686.8 1 2494 8 t 1696 4 1 2504 3 ! 2195 2 2 2 5 4 4 9 '7 646 0 20 9 6 1 0 20 2232 6 2 2562 7 7 329 2 3 972 0 3 1858 03 984 0 20 2585 7 I 2606 1 2 1598 620 2313 0 20 2 1 2642 818 0 20 1658 0 I 1891 0 2 2700 9 9 1934 8 20 7 I 2742 1 1 2754 933 7 20 2 2 1014 2779 9 1
(footnotes
59
+8-79.
end
8 1 100 6 43 7 100 7 100 100 44 1 74 1 81 2 100 2 5 0 12 100 6 786 10 2 100 6 100 4.5 2.7 100 6 28 3 88 5 lOO 5 4.9 42 8 100 6 100 18.3 iO0 8 58 7
of
table)
E2 E2
5 4
9
4
- 0 ,-,
1 638u82-4 45~ --
NUCLEAR
14~Eu A d o p t e d E(level) 2813.5
2819.1 2836,4
2838.7
2859.2 2862.7 2911.1? 2918.9 2971.8
2988.1 3001.5 3062.14
3092.0 3101.1 3176.3 3183.0 3199,1
3220.6 3228.7 3238.0 3253.6? 3261.1 3267.2 3280.9 3312.5 3343.5 3383 3389.17 3397.6 3408.9 3411.6 3444.2 3451.6 3507.4? 3520.0? 3525.6? 3547.1? 3561.9 3578.4? 3598.6? 3620.2
I7
E7 239 5 530 2 569 3 968 5 973 8 22 5 262,5 552.7 992.5 1082,4 2838.7 1013.9 578.6 74.7 2110.6 2918.6 1215.0 2163.4 2971.9 2988.1 2192.0 3001.5 1181.5 1461.6 2021.7 2253.9 3063.1 3092.0 2292.0 3101.2 1576.0 3176.3 271.9 1599.0 2390.9 3198.3 1620,3 3220.7 1462.9 2429.6 3239.4? 3253.6? 3261.1 2458.9 3266.0 2239.7 3280.7 3312.5 3343 5 3053 2 3389 l? 2589 2 3079 0 3408 3? 2603 2 3114 2 2409 9 3177 4? 3188 O? 3520 9? 3525 6? 1466 6? 3547 I? 1796 1 3578 49 3 5 9 8 6? 3290 4 3619 8
3 3 3 3 20 2 3 3 20 20 1 20 3 3 1 2 20 1 4 4 20 2 1 1 20 2 2 2 4 2 20 2 3 20 2 4 1 3 20 1 7 3 2 1 20 3 2 2 3 4 2 2 20 2 2 20 20 20 7 7 20 5 20 4 3 4 7
100 6 22 4 16 4 90 6 100 ~36 33 7 1 0 0 14 2.9 12 8.5 15 100 6 100 100 100 100 9 38 3 39 6 1 0 0 10 18 4 100 6 2 15 IO0 11 26 5 tOO 7 38 3 28 3 24 2 100 3 1 19 tOO 6 4 6 11 100 9 100 1 0 0 26 8 2 21 44 8 tOO 6 0 35 2 100 100 9 30 4 109 tOO 29 4 tOO 17 3 0 13 IO0 9 100 tOO tOO tOO tOO tOO 7 56 7 I00 I00 100 I00 100 25 11.3 13 100 190 2 8 86 14 I00 100 I00 5 0 13 1 0 0 10
Continued
7 radiations
Mult.
Comments
0,1229 0,0192
MI E2 E2
9 5
6:-3.49 6:-0.44
23.46 0.0891 0.0104
E2 MI
4.36
MI+E2
0 0873
E(level) 3628.3
3843.8 3675.7 3705.4
3738.9 3747.2 3768
9?
3847
9
3879 3888
8 9
3920
7
3931
7
3939
3
3944
6
next
(continued)
a
MI+E2 MI+E2 D E2
on
1 63 4 5 ~~L 1 8 2 _
SHEETS
DATA
page
+41-52, +8-7.
B(M1)(W.u.)=0.012. B ( E 2 ) ( W . u . ) = 0 . 6 0 14. B(E2)(W.u.)=O.O06.
6:-1,96
+16-18.
E7 1513.2 2819.8 3299.2 3643.8 2633.1 2867.4 1648.9 2896.9 3705.8 1858.3 2149 0 3746 9 1366 17 1441 5 3769 O 2087 2 3039 5 3848 0? 1416 3 1561 9 3888 8? 2040 9 2073 9 3920 8? 6 1467 8? 3931 7 2056 2? 3940 0 2064
17 20 2 4 3 20 2 20 2 3 20 20 3 20 2O, 4 20 2 4 20 20 4 20 20 5 20 6 20 7 20
footnotes
60
at
81 2 4 l O 0 10 3 3 14 100 39 5 1 0 0 10 2 9 10 100 6 38.6 24 100 I O 0 21 5 0 11 1 0 0 13 20 9 20 6 l O O 18 7 8 12 13.2 13 100 64 27 1 0 0 14 100 29 2 6 10 13 3 i00 43 100 29 I00 25 8.8 25
end
of
table)
4
145p. 63,u u
NUCLEAR
82--,-)=
DATA
SHEETS
145~ 63 t',U82--O
14~Eu A d o p t e d 7 r a d i a t i o n s ( c o n t i n u e d ) E(level) 3949.8
3962.9
3976.3 3988.9 4003.9 4014.1 4021.6 4023.8 4044.5 4047.9 4051.7
4069.9 4122.8 4131.4 4156,7 4184.0
4258.6
4275.9
4281.8
4308.6
4364.8 4390.7
E7 2907 3141 3950 2083 3632 3962 793 2947 2158 3684 4012 4021 4023 2283 4043 1999 2293 2451 3009 3243 4051 2469 4068 146 3324 3801 3348 4155 2302 2422 2425 3376 4184 2144 2413 2691 3217 3928 4258 1576 2227 2396 2509 2675 4275 1755 2077 2202 2521 2714 3473 3953 4281 1782 1844 2539 2708 3977 4307 3556 4364 2203 2276 2508 2624 3582 4390
2 7 3? 7 7? 7 9 20 7 3 9 5 3 3 2 20 6 20 3 3 3 9 6 4 8 9 5 3 8 4 0 20 5 2 9 2 7? 2 2? 7 2 9 6 1 9 6 5 3 9 20 3 3 4? 3 0 15 O 20 9 1 6 ! 9 7 6 4 2? 3 3 2 0 9 2? 6 8 4 4 9 0 20 0 1 5 4 2 20 2 3 9 9 O 20 9 20 0 20 5 20 4 5 9 5 3 20 7 9 9 20 0 20 O 20 5 1 9 5 3 4 5 3 5 5 0 20 1 6 0 20 7 2 9 3 7 5
I?
Mult.
100 23 89 9 26 6 100 26 56 7 7 8 15 100 100 100 100 7 6.09 100 tOO 100 12 92 15 i00 67 20 I 0 0 20 34 3 133 8.7 13 1 0 0 16 19 3 100 7.8 26 100 9 1 0 0 13 26 4 7.8 26 39 4 100 7 12 3 11 .5 10 1 0 . 9 15 100 6 6.2 12 4.1 6 14.4 9 10.9 12 13.6 43 100 9 25 4 13 5 46 7 59 6 26 6 37 8 35 8 2 2 11 44 3 100 6 8.4 17 39 4 46 13 0 4 13 6 82 8 53 6 100 6 5 5 13 100 6 I00 2 5 11 . 5 3 9 44 13 3 3 12 79 6 42 4
Continued
a
E(level)
2091,4? 2 2360.9? 4 2809,9 2 2842,9 2 3601.5 3 4081.2? 4 4409.8 5 2662,7? 2 2670.0 20 2828.2 1 2860.9 2 4427.8 5 2670,72 2 2387.3? 2 2554.8 7 2677.9 2 2836.0 2 3394 5 3 3626 2 9 4107 0 5 2573 9 1 2609 6 2 2697 2 9 2853.2 2 3413 1 3 3645 8 3 4453 8 7 3656 2 7 4463 1 6 2591 3 20 3664 1 4 4473 3? 5 2738 7 1 3454 3 3 3687 7 3 2100.4 1 2181 2? I 2 4 5 3 O? 2 0 2622 1 1 3460 9 3 3694 3 3 4502 6 6 4188 2 4 4517 5? 5 4536 9 5 2083 7 1 2789 5 2 2947 1 3 2980 1? 3 3505 3 4 3738 7? 3 4217.2 4 4547.1 5 2797.4 2 2955.4 2 3512.8 3 4554.5 6 2800.7 2 2804.9 2 4 3757.7 4566.6 5 4577.8? 9 2992.9? 3 3550.7 3 3785.4 6 4593.4? 6
4410.1
E1 4424.0? 4428.3
4432.0? 4436.1
4454.4
MI+E2
0
6293
8
4463.8 4472.8
4496.8
4502,8
4517,9 4536.9 4547,2
4555.4
4566.4
4577.9? 4593.0
on
next
pa~e
footnotes
61
at
end
of
I7
E7
table)
82 37 57 100 85 45 55 100 45 100 31 15 100 27 31 43 I00 9
17 8 70 8 7
5 3 10 7 5 1 7 6 5 10 !
13 2 4.05 100 8 5O 8 78 20 47 5 58 3 75 6 26 4 100 5 0 50 25 4 6 23 I00 15 54 8 50 4 11.1 37 100 7 100 6 51 4 29 9.3 25 5 34 4 22 2 16 2 I00 12 32 4 I00 100 8 70 8 9 9 10 26 7 31 4 24 2 13 2 15 t 6 9 11 7 6 17 1 0 0 19 31 2 8 3 16 I 0 0 15 15 2 31 3 100 4 6 11 I00 9 25 # 7.0 18
14512, 63~u82
_ ~~
NUCLEAR
145Eu A d o p t e d E(level)
E'f
4634.6
3034 3826 4634 2597 2764 2884 2887 3604 4316 4645 4656.2 2902.3 3623.1 4663,8
4645.6
4656.3 4663.8
0 8? 9? 3? 8 1 9 2 3 7
3 4 9 2 1 2 6 3 4 5 9 2 7 9
100 32 18 28 51 77 32 100 29 33 100 100 34 17
E(level)
11
4685.4 4700.3
145EL1
SHEETS
T radiations
I'y
7 4 3 4 6 3 6 2 2
DATA
63
(continued)
E7
I~
4685.3 2175.8 3891.7 4370.7? 4699.6 1788.5
4709.9
Muir.
6 20
4 6 9 20 20 4
2831.0
3901.7 4379.9 1029.4
5152.2
82 - 6
7 3
1 0 0 31 59 9 19 3 6 . 3 31 100 13 32
37 16 t00
11 4
3
10 14 3
*y(145Sm)
from
t45Eu e Decay
78VyZX
M e a s u r e d : 7 (82De26,80AdZW,78VyZX,77BaZP,73Ne01,68Ad04,67Dr0[,67Hi05), ce7 coin (68Ad04), 77 ( 7 8 V y Z X , 7 7 B a Z P , 7 3 N e 0 1 ) , 7fl ( 6 8 A d 0 4 ) , p r o b a b i l i t y of E ( 8 3 S c 2 8 , 8 3 B e Z F ) , 7 ( 0 ) f r o m o r i e n t e d n u c l e i ( 8 3 V a 0 2 , 8 2 D e 2 6 ) , ce ( 7 8 V y Z X , 7 7 B a Z P , 7 4 B u 3 1 , 6 7 H i 0 5 , 6 6 A d 0 1 ) , f i T ( t ) ( 7 6 B e 0 9 ) , 7 7 ( 0 ) (78VyZX,77 BaZP,76Be09,75BuZA,670b03,66Go08,65De29,62A119). a ( K ) e x p w a s d e d u c e d f r o m e e ( K ) a n d I7 ( 7 8 V y Z X ) a n d n o r m a l i z e d to a ( K ) = 0 . 0 0 2 6 8 f o r 8 9 4 7 22. 80AdZW c l a i m t h a t 30 o f 94 7 ' s f r o m 7 8 V y Z X a r e d o u b t f u l but did not name them, therefore preventing evaluator from using their finding. Adopted decay scheme did not accommodate observed 7647-16587 coin and weak 18767-4687 coin (78VyZX). IT n o r m a l i z a t i o n : 1 ( 8 9 3 7 ) = 6 8 , 4 Z 2 5 (see c o m m e n t to I7(8937)). T ± / 8 9 4 " y = O . 0 6 6 5 (73Ne01). Eft+(0.0 l e v e l ) = 1 6 7 0 5 0 ( I f l + = l . 0 ) f r o m 67Ob03; o t h e r s : 1724 3 0 ( 6 7 H i 0 5 ) , 1740 4 0 ( l f l + = l . 0 ) (66Zh01). E f l + ( 6 9 3 . 7 3 8 l e v e l ) = 7 8 0 5 0 ( I f l + = 0 . 3 2 11) ( 6 7 0 b 0 3 ) ; o t h e r s : 786 4 0 ( 6 7 H i 0 5 ) , 7 9 4 15 ( I f l + / c e ( K ) ( 8 9 3 . 7 7 ) = 2 . 0 3) (68Ad04), 800 4O (I~+=0.33 6) (66Zh01). I~(1658.50 l e v e l ) = ~ K ( e x p ) = 0 . 8 4 1 2 4 (83BeZF). I~(1996.90 l e v e l ) = ¢ K ( e x p ) = 0 . 8 3 5 15 (83BeZF). e K ( e x p ) ( 2 5 0 8 + 2 5 1 3 ) / e K ( e x p ) ( 1 9 9 7 ) = 0 . 8 6 8 20; c K ( e x p ) ( E 4 2 5 ) / ~ K ( e x p ) ( 1 9 9 7 ) = 0 . 9 4 1 17 (83Sc28); ~ K ( e x p ) ( 1 9 9 7 ) = 0 . 6 3 5 15, c K ( e x p ) ( 1 6 5 8 ) = 0 . 8 4 1 2 4 (83BeZF). E f l + = 7 9 4 15 ( 6 8 A d 0 4 ) ; o t h e r s : 786 4 0 ( 6 7 H i 0 5 ) , 800 4 0 ( 6 6 Z h 0 1 ) .
ET t
E(level)
111.087 24 x120.44§ 8 x136.45§ 7 x160.69§ 6 172,397 38 19 x176.25 185.23 42 191.24 5 x199.21§ 3 212.92? 8 218.19? 11 x225.21 24 x230.0§ 2 x249.51 57 252.69 16
1547.31
2513.37 2340.59 1627.55 2346.40 2558.89
IT# 29 0 0 0 0 0 0 7 0 1 0 0
Mult.
4 9 3 1 05 1 24 2 15 5 21 5 09 5 87 17 45 5 1 6 11 2 08
~$
MI+E2
-1.98
Ml+E2
+0.084
a
6
1,550
3 1
2110.60
0
15
5
(El)
0.023
1804.24
9 2 4
M1 22 MI+E2
0,124 0.080
2 6
MI+(E2)
6 9
2425.85
0 39 0 04 0 37
x309.66 314.13
29 5
1972.63
0 05 0 79
26
Continued
on
next
page
+0.04 (footnotes
62
0.0727
+27-29
at
4
0.277
16
0 05
256.91 x269.11 292.25
Comments
end
of
Mult.:
¢~(K)exp=0,809 40.
Mult.:
a(K)exp=0.224
7.
Mult.:
a(K)exp=0.039
22.
Was o b s e r v e d o n l y c e ( K ) . Mult.: ¢x(K)exp=0.063 26 is l a r g e r t h a n a(K)(E1); however, decay scheme placement required El. Mult.: a ( K ) e x p = 0 , 1 0 7 25. M u l t . : ( x ( K ) e x p = 0 . 0 4 7 37. M u l t . : ( x ( K ) e x p = 0 . 0 9 1. D: -5.97-< ~-< 0.12. 21
table)
Muir.:
a(K)exp=0.061
10.
NUCLEAR
145~. 63L, u 8 2 - - ~~
~(145Sm)
E(level)
Evt 338.33 349.46 x355.18 365.37 373.59 388.95
425.50 x429.3§ 434.414 449.73 453.46
6 7
1996.90
2346.40
35
18
1972.63 2346.40 2192.98
14
2558.89
5 4
8
463.87?
58
x468.76 474.84 485.05
34
x497.31 526.03
39
9 58
5
536.67 25 542.564§ 17
x549.39 x560.40 x564.9§ x573.6§ x581,6§ 586,01 x621.79§ 653.512
x873.75
11
E1
2133.37 2481.98
1,7 1.7 0.9
2133.37
0.06 1 .61
2133,37
17 18 27
2346.40 1607,29
43
4 8
1627.55 2385.89
0.59
2481.98 2385.89 2293.03
Continued
+1.9
+14-8
0.044 0.0550
-2.2
+7-13 +21-41
0.034 0.0462
-0,19
+0.03
MI+E2
Comments 5
0.028
12
+0.31
0.019
+10-9
Muir.: a(K)exp=0,0040 4. Mult.: a(K)exp=0,059 6, Mult,: a(K)exp=0,003 2. M u l t , : a ( K ) e x p = 0 , 0 3 1 5. M u l t . : a ( K ) e x p = O . 0 4 2 5. M u l t . : a ( K ) e x p = 0 . 0 2 1 14. Mult.: note that m ultipolarity(388,95T) MI,E2 is inconsistent with multipolarity(2192.87) M1,E2, T h e s e m u l t suggest different parity for 2192.96 level. Mult.: a(K)exp=0,006 3. M u l t . : a ( K ) e x p = O , O 0 5 0 9. Only ce(K) observed, Mult.: 40. a(K)exp=0.0224 Mult.: a(K)exp=0.006 4. Mult.: note that multipolarity(463.67~) E1 is i n c o n s i s t e n t with multipolarity(2340.537) MI+E2. These mult lead to different parity for 2340.53 level, Mult.: a(K)exp=0,007 4. Mult.: a(K)exp=0.0027
16.
Mult.: a(K)exp=0.6156
11.
Et
Mult.: a(K)exp=0.0033 3; 7 ( 0 ) is i s o t r o p i c . Only ce(K) observed,
El
Mult.: a(K)exp=0.00315 15. Mult.: a(K)exp=0.07O 45. Mult.: a(K)exp=0.086 50. M u l t . : a ( K ) e x p = 0 . 0 O 8 1 9.
10
M1
5 5
(El)
10
MI
25.9 5 0.55 5 0.06 2 1 .67 8 0.08 4 0.50
a
5 1 3 3 8 [
2 I
1658.50
(continued)
E1
0.39 70 5
0.16 0.05 0.I0 0.30 0.36 0.08 240 5
78VyZX
E1
9 11 5
0.04 0,03 3.60 0.82 0.41 0.14
1 1
764.775 18 x778.60§ 7 823.30? 52 838.636 39 889.61 29
7 5
0.26
1547.31
18
E1 MI+E2 MI+(E2) MI,E2
2340.59
19
757.59
5
MI+(E2)
1972.63 1436.30
145~ 63tL, U 8 2 - - (
Mi
5
8
37
MI+E2
7
0.49
1857.66 1996.90 1876.64
2 I I
x674.33 687.90? 713.551 x727.3§ x729.1§ 733.45
1 07 0383 0 10 0928 0 77 0 18
SHEETS
5$
Mult.
I7#
E1
30 17
16
~45Eu ~ D e c a y
0.24 4 0,10 2 2.8 2
I 25 40
from
DATA
MI+E2
7
(MI)
next
pase
4.
25. Mult.: a(K)exp=0.039 Mult.: a(K)exp=0.0056 7. Muir.: 41. a(K)exp=0.0074 Mult.: a(K)exp=0.0061 33.
M1 MI,E2
28
on
+0.10
Mult.: a(K)exp=0.0087 45. Mult.: 25. a(K)exp=0.0055 Mult.: a(K)exp=0.0069
(footnotes
63
at
end
of
table)
16435,p~, u 8 2 - - , .~,
NUCLEAR
~(145Sm)
E(level)
zTt x877.71 893.738
910.55 917.13 x923.1§ 949.529 x959.97 x963.84 x982.6§ 1002.95 x1022.1§. xi058.7§ x1063.53 1078.909 1103.12 1239.57 x1261.5§ x1266.6§ 1423.189
32
§ 24
6 20
1804.24 2340.59
30
1423,189
1.81 0.06 0.19 5.60
2346.40
0.90
2425.85
4 I 36 30
25 5 2 1
6 23 6
1972.63 1996.90 2133.37
2425.85 1547.31 2481,98 2508.73 1658.50 1804.24 1848.1 1857.68 1876.64 1972.63 1996.90 2110.60 2133.37 2155.32 2192.96
64 06 81
Continued
continued)
Comments
Mult.: K / L = 5 . 9 5 (61An04), a(K)=0.00268 was used for normalization of o t h e r a ( K ) e x p . E'y: 8 9 3 . 7 2 9 i n 80AdZW. l'y: f r o m I ( ~ * ) / I ( 8 9 3 ~ ) = 0 . 0 6 6 5 (73Ne01), Ifl+(893)/lfl+(g.s.)=0.33 6 (86Zh01), ¢ / f l + ( t h e o r y ) a n d assumption that
l(~+ce)(g.s.)+(E +~+)(g.s.)=100~ follow I(893~)=68.44 25 (78VyZX); other: 68% 14 (66Zh01); 68% 6 evaluated f r o m 68Ch30 with recent Ia=15.8Vo 14 in 14gTb a decay. Mult.: a(K)exp=0.00279 64.
E1
ET: f r o m 80AdZW. Mult.: a ( K ) e x p = 0 . 0 0 3 9 9
MI
MI MI+E2
+0.04
1
18 1 3
MI+E2
-0.61
+7-9
Mult.: a(K)exp=0.0029 Mult.: a(K)exp=0.0034 0nly ce(K) observed. Mult.: a(K)exp=0.0021
20
M1
18
MI
24
5.02 16 1.08 13 0,09 5 0.17 6 2 2 1 11 0.26 10 20,9 17 0.11 3 5.76 27 19.8 10 0.19 2 1.36 8 107 5 0,53 3 0.18 3 3.3 4 2 0 3 10 0 54 3
2276.60 2293.03 2329.39
78VyZX
E2
3 3 I 4 1 2 4
2
Decay
6
0.11 0.10 0.03 0.11 0.04 0.18 0.77 6.45
20 30 22
1.0 1000
r
1~3,~ 45PU82_8
SHEETS
Mult.
5 7 2 9
2385.89
145Eu
17#
1.24 0.18 0.09 1.25
2
1452.51 9 14 x1461.90 1532.05 7 1547.21 9 1588.397 26 1614.357 25 1658.44 5 x1779.79 26 1804.21 4 1848.1 3 1857.68 5 1876.64 6 x1950.76 21 1972.74 6 1996.95 6 2110.60 9 x2129.86 35 2133.41 7 2155.30 7 2192.86 7
2276.58 2292.81 2329.37
893.738
from
DATA
8 2 7
on
2.
5. 7. 5.
M1 M2+E3
+0.62
+12-10
Mult.,6:a(K)exp=0.00153 19; ~=+0.48 + 6 - 3 (82De26). EV: f r o m 80AdZW. Mult.: a(K)exp=0.0032 10. Only ce(K) observed. Mult.: a(K)exp=0.00164 24. Mult.: a(K)exp=0.00103 22.
MI+E2
-~.07
6
Mult.: a(K)exp=0.0088 47. Mult.: a(K)exp=0.00087 5. Mult.: a(K)exp=0.O0023
El E1 MI+E2 M1 E2 MI+E2 MI
-1.29
+0.241
Mult.: Mult.: Mult.: Mult.: Mult.: Mult.:
+6-7
11
+0.067
next
pase
30
Mult.: Mult.:
~footnotes
64
at
a(K)exp=0.00045 5. a(K)exp=0.00072 7. a(K)exp=0.00153 44. a(K)exp=0.00118 15, 3,(8). a(K)exp=0.00073 8. a(K)exp=0.00091 5.
Mult.: a(K)exp=0.00033 9. Mult.: a(K)exp=0.0012 2. Mult.: a(K)exp=0.00144 70. Mult.: note that multipolarity(388.95"y) M1,E2 is inconsistent with m u Itipolarity(2192.8q,) MI,E2. These m u l t suggest different parity for 2192.96 level. Mult.: a(K)exp=0.00028 12.
E2 M1,E2 M1,E2
EI+(M2) M1 M1,E2
4.
end
of
a ( K ) e x p = 0 . 0 0 2 2 15. a ( K ) e x p = 0 . 0 0 0 4 6 7.
table)
16435~~8,2
-9
NUCLEAR
7(*~5Sm) E7 t
E(level)
from
DATA
SHEETS
*45Eu [ Decay
17#
14517', 63~u82
78VyZX
Mult.
(continued) Comments
6$
2340.53
14
2340.59
0.35
4
MI+E2
2346.46 2385.22
7
2348.40 2385.89
2.88 0.08
7 2
MI+(E2)
31
2387.32
0.39 0 07 2 01 0 54 0 49 0 32 0 008 0 02
3 1 4 2 2 2
(Mr)
Mult.: note that multipolarity(463.677) E1 is inconsistent with multipolarity(2340.53T) MI+E2. These mult l e a d to d i f f e r e n t parity for 2340.53 level. Mult.: a(K)exp=0.00047 7. Placement o f t h i s T is i n c o n s i s t e n t with placement or mult (M1) o f 949.5297 between 2385.22 a n d 1436 1 / 2 + l e v e l s . Mult.: a(K)exp=0.000037 18.
MI M1 MI+E2 MI+E2
Mult.: Mult.: Mult.: Mult.:
a(K)exp=0.00067 a(K)exp=0.00089 c*(K)exp=0.00086 a(K)exp=0.00059
9. 20. 28. 25.
(MI)
Mult.:
a(K)exp=0.00272
190.
2387.32 x2422.00 2425.80 2481.99 2508.34 2513.37 2551.9 2558.62
8 38 7 10 20 23 2 4O
2425 2481 2508 2513 2551 2558
85 98 73 37 9 89
+18-10
2 1
1" F r o m 78VyZX except where noted otherwise. $ From 7(0) from oriented n u c l e i (82De26). § F r o m 80AdZW. # For absolute intensity p e r 100 d e c a y s , m u l t i p l y x 7 ray not placed in level scheme.
7(145Eu)
+0.81
from
by
0.0684
i42Nd(SLi,3nT)
25.
E=32
MeV
80Ra01,80Ba01
M e a s u r e d : 7, 7 7 , 7 ( 0 ) , e x c i t a t i o n function ( 8 0 R a 0 1 , 8 0 B a 0 1 ) , ce ( 8 0 R a 0 1 ) , T ( t ) ( 8 0 R a 0 1 ) . 1 4 2 N d ( V L i , 4 n T ) E = 3 2 MeV ( 8 0 R a 0 1 ) , m e a s u r e d : 7, 7 7 . All d a t a a r e f r o m 80Ra01 e x c e p t w h e r e noted otherwise. Tt/z(716.0 3 level)=490 ns 30 from 75Fr18, the value measured b y 8 0 R a 0 1 is c o n s i s t e n t T1/2=490 ns. E7
E(level)
Mul t . ~ ' : ~
(22.9) 74.7 146.5 x233.7 239.5 262.5 271.9 329.2 329.4 386.6 399.8
3 3 3 3 3 3 3 3 3 3
2813.5 2836.4 3183.0 2573.6 329.4 716.0 2244.4
30 9 7 51 10 61 16 334 271 34
x517 530.2
3
2813.5
It
2
MI+E2
552.7
3
2836.4
10
2
E2
569.3
3
2813.5
8
2
D
578.6
3
2862.7
29
3
E2
8
1
D
~651.8
2836.4 2911.1? 4122.8
I7
3
10 1 2 3 2 3 4 15 15 2
D Mr+E2
-2.6
MI+E2 E2 MI+E2
Comments
+8-14
-3.49
+41-52
-1.96
+16-18
M1 M2 E1
716.0 793.3
3 3
716.0 3976.3
76 30
4 2
E3 E1
885.2
3
1601.2
44
3
Mi+E2
Continued
6
on
-0.44
next
+8-7
-2.5
+8
page
(footnotes
65
with
79
Mult.: Mult.: Muir.: Mult.: Mult.: Mult.:
A z = - 0 . 1 t 2, A 4 = - 0 . 0 6 2 ( 8 0 B a 0 l ) . A 2 - - 0 . 3 1 1 27, A 4 = + 0 . 0 4 3 35. A 2 = + 0 . 0 8 3. A z = - 0 . 2 5 3 8, A 4 = + 0 . 0 4 4 11. A 2 = + 0 . 3 0 7 5 8 , A 4 = - 0 . 2 4 2 68. A 2 = - 0 . 4 9 8 25, A4=+0.073 29.
Mult.: A2=+0.01 2 (80Ba0t). Mult.: Aa=+0.06 2 (80Ba01). M u l t . : ~ x ( K ) e x p = 0 . O 0 5 3 12; A z = - 0 . 2 5 0 11, A 4 = + 0 . 0 2 9 14. Coin o n l y w i t h 578.67. M u l t . : c ~ ( K ) e x p = 0 . 0 2 2 4; A 2 = - 0 . 9 9 0 4 7 , A4=+0.071 50. M u l t . : c x ( K ) e x p = 0 . 0 0 6 4 56; A 2 = + 0 . 3 5 9 39, A4=-0.074 45. M u l t . : c z ( K ) e x p < 0 . 0 4 ( 8 0 R a 0 1 ) ; A a = - 0 . 1 4 10, A 4 = - 0 . 0 8 16 ( 8 0 B a 0 1 ) . M u l t . : c x ( K ) e x p = 0 . 0 0 8 2; A 2 = + 0 . 2 6 5 13, A 4 = - 0 . 0 7 0 16. M u l t . : A 2 = - 0 . 3 7 4, A 4 = + 0 . 0 3 5. Coin relations found in 80Ra01 d i d n o t a l l o w placement between 1368 a n d 716 l e v e l s , contrary to c o n c l u s i o n o f 80Ba01. Mult.: a(K)exp<0.0022; A4=+0.056 22. Mult.: cx(K)exp=0.0033 A 4 = - 0 . 0 5 8 13. at
end
of
table)
Aa=-0.256 9; A2=
14,
0.239
11,
_O~,
i 63=~U82 45~. - I0
NUCLEAR DATA SHEETS
7(1¢5Eu) E7
from
E(level)
14aNd(6Li,3n~)
I7
E=32
MeV
145~,, 63~u82 - ' 0
80Ra01,80Ba01
(continued) Comments
Mult. T*
968.5
3
2813.5
46
3
972.0
3
2573.6
32
2
E2 E2
x1038.6 1128.6
3 3
1844.6
16 100
2 5
D MI+E2
1499.1
3
1828.5
7
1
D+Q
1568.1 1658.0
3 3
2284.1 2573.6
64 25
3 2
E2 E2
? a(K)exp were normalized to known $ It is a s s u m e d t h a t Q -/'s a r e E2. x -/ r a y n o t p l a c e d i n l e v e l s c h e m e .
+1.30
a(K)(7167)
14SEu Levels f r o m
M u l t . : A 2 = + 0 . 3 0 1 13, A 4 = - 0 . 0 4 1 17. Mult.: a(K)exp=0.0022 5; A z = + 0 . 3 8 2 A ¢ = - 0 . 0 0 4 27. M u l t . : A 2 = - 0 . 1 0 4, A 4 = + 0 . 0 3 5. Mull.: a(K)exp=0.0022 2; A ~ = + 0 . 5 7 5 A4=+0.110 9.. M u l l . : A 2 = - 0 . 6 0 10. E-/: o b s e r v e d only by 60Ba01. M u l t . : A a = + 0 . 2 5 5 9, A ~ = - 0 . 0 2 1 . M u l t . : A 2 = + 0 . 3 6 8 18, A 4 = - 0 . 0 1 4 22.
+15-25
E3, a ( K ) ( 3 2 9 3 , )
M1 a(K)(386.6-/) M2, a ( K ) ( 1 5 6 8 T )
t44Sm(p,p),(p,p'),(pol
p,p')
21,
7,
E2.
77C102
Polarized protons w i t h E = 9 . 0 - 1 2 . 7 MeV ( 7 7 C I 0 2 ) , 8 . 5 - 1 4 MeV ( 8 4 C e 0 1 ) . M e a s u r e d : or(E,0), a n a l y z i n g p o w e r ; DWBA a n a l y s i s , S t u d i e d : IAR ( l e v e l s i n t 4 5 E u ) a n a l o g s o f l o w e r l e v e l s o f 145Sin. D e d u c e d : E, J, F, S.
E(level)
J~
1021 9340 10780 10940
3/27/29/21/2-
1100o
5/2-
11140 11220
9/27/2-
E(level) 11320 11340 11490 11500 11640? 11690 11780
3/25/23/21/2(3/2-) 5/25/2-
~/(145Eu) Measured:
-/, "/7, -/(0), 7 ( t ) , E(level)
E7 22.5
2
2836.2
75.9
2
2912.17
x143.0 146.5
2 2
239.6 262.1 271.8 329.6 386.7 399.6 530.0 553.0 568.7 578.3 716.4 793.8
885.5
E(level)
J~
from
7(E(a))
IV
Mult.
~25
4.36
M1
12 125
3
4134
D D+Q
2
2813.6
110
2 2
2836.2 3183.9
23
385
IO 5 10
2 2 2 3 3 3 3 2 6
329.6 716.3 2244.9 2813.6 2836.2 2813.6 2861.8 716.3 3977.7
955 650 90 60 70 50 50 240 420
20
2
1601.8
125
10
(5/2-) (5/2-) 1/23/2-
E=50
7(E(a))
~425
D+Q
D D
10
Q
15 15 50 80
D
iO
D+Q
D
on
next
pa~e
MeV
79Ha48
(84RuZW). Comments
IT+ce
D Q
I0 lO
Continued
a 23.46
7
7/2-
12160? 12350? 12430 12490
7, 7 ( 6 ) ,
M1
78
12040
144Sm(a,p2n"y)
(79Ha48),
J~
(footnotes
66
Mult.: a from balance of I('/+ce) for 2813.6 level (if no side feeding). Mult.: Aa=-0.23 3 (84RuZW), balance of I('y+ce) f o r 2912 l e v e l . I-/: f r o m 8 4 R u Z W ( r e n o r m a l i z e d to I(386-/)=650 (79Ha48)). M u l t . : A 2 = - 0 . 5 3 10, A a = - 0 . 0 3 I0. I-/: f r o m 7 9 H a 4 8 ; o t h e r : 98 7 ( 8 4 R u Z W ) . M u l t . : A a = - 0 . 3 7 10, A 4 = - 0 . 0 2 10 ( 7 9 H a 4 8 ) ; o t h e r : A a = - 0 . 3 0 8, A 4 = + 0 . 0 3 10 ( 8 4 R u Z W ) . M u l t . : A a = - 0 . 2 8 4, A 4 = - 0 . 0 1 6. M u l L : A 2 = + 0 . 4 2 6, A a = - 0 . 1 0 10. M u l t . : A 2 = - 0 . 7 6 6, A 4 = - 0 . 0 1 6 ( 7 9 H a 4 8 ) ; o t h e r : A ~ = - 0 . 5 0 4, A 4 = + 0 . 0 9 6 ( 8 4 R u Z W ) . M u l t . : A z = + 0 . 0 0 4, A 4 = - 0 . 0 4 6. M u l t . : A 2 = + 0 . 0 0 , A 4 = + 0 . 0 5 6. M u l l . : A a = - 0 . 3 3 6, A 4 = - 0 . 0 7 8. M u l t . : A 2 = - 0 . 7 0 8, A 4 = + 0 . 1 4 8. M u l t . : A 2 = + 0 . 2 2 6, A 4 = - 0 . 1 4 8. M u l l . : A 2 = - 0 . 2 9 6, A 4 = - 0 . 0 1 8. M u l t . : A a = - 0 . 0 1 10, A4=+0.08 10. M u l l . : A 2 = + 0 . O 0 6, A4=+0.03 8, M u l t . : A ~ = - 0 . 3 7 6, A 4 = + 0 , 0 1 6. I-/: n o t v e r y r e l i a b l e b e c a u s e o f a d m i x t u r e of ~*~Gd 7 - l i n e s . M u l t . : A 2 = - 0 . 2 0 6, A 4 = - 0 . 1 0 6. at
end
of
table)
145~. 6 3 ~ u 8 2 - - Ii
NUCLEAR
T(145Eu) E~
Z(level)
968.6 972.1 1029.4 x1046 5 1128.8 x1472.0 1567.2 1857.7
3 3 3
2813.6 2574.0 5154
22 I
1845,1
2
2283.5 2574.0
3
x T ray
not
placed
in
from
level
145Eu
J~
0.0 329 3 716 4 809 4 1042 5 1599 8 1757 8 1843 8 2 1 0 8 10 2 4 8 0 12 2480 12 5 9 0 0 100
1" A d o p t e d
5/2+ 7/2+ 11/21/2+ 3/2+ (7/2)+ 3/2+ (5/2)+ 3/2+ 1/2+ 3/2+ (9/2)-
Q
20 15 5 25
E(level)
15
Q D D Q+D
Mult,: Mult.: Mult.: Mult.: Mult.:
A 2 = + 0 . 2 6 6. A 4 = - 0 . 0 2 . A z = + 0 , 3 0 6, A 4 = - 0 , 1 6 10, A 2 = - 1 , 1 4 20, A 4 = + 0 . 3 5 20. A 2 = - 0 . 2 7 20, A 4 = + 0 , 2 1 20. A2=+0.51 6, A 4 = + 0 . I 5 8,
30 10
Q Q
Mult.: Mult.:
A z = + 0 . 2 5 6, A 4 = - 0 . 0 5 A z = + 0 , 3 1 8, A a = + 0 . 0 2
Levels from
L
144Sm(3He,d)
2 4 5 0 2 4 2 2 2 0
MeV ( 8 2 G a 1 2 ) , 67.2
MeV
70Ne04,71Wi04
MeV ( 8 4 R u Z W ) .
Comments
33 17 82 0 98 1 02 0 02 0 02 0 10 0.04 0.02 0.04 0.97
2
(5)
E(level),JTr,C2S: f r o m 82Ga12. J~r: L = ( 5 ) , s h e l l m o d e l .
Levels from
JTr 1"
L
cZs
0.97
7600
(13/2)+
6
0.94
L and
shell
E=80
MeV
82Ga12,84Ga16
Comments
E ( l e v e l ) : F=1,23 MeV 15. L: ~20% o f L=3 s t a t e s c a n n o t be e x c l u d e d . E ( l e v e l ) : F = 4 . 0 0 MeV 45. L: L=5 ( a n d c z s = 2 . 3 6 ) c a n n o t b e e x c l u d e d .
model.
145Eu Measured:
144Sm(a,t)
a(E,O), DWBA a n a l y s i s .
5
1840
8, 10.
0 0 0
(9/2)-
0.0 329 716 808 t042 1760
240
E=40.33
C2S
0.0 5 9 0 0 ,O0
E(level)
(continued)
values.
Measured:
T From
79Ha48
scheme.
1452u
400
E=50 MeV
14~Eu82-II
Comments
Other measurements: E=33 MeV (82Sc25), M e a s u r e d : G(E,0), DWBA a n a l y s i s . E(level)
SHEETS
Mult.
IT 185 115 50 75 95 ~10 110 115
144Sm(a,p2nT)
DATA
Levels from
144Sm(TLi,6He) E = 5 2
cr(E,O), DWBA a n a l y s i s . j~t
5/2+ 7/2+ tl/21/2+ 3/2+ 3/2+ $
(5/a)+t
L 2
4 5 0 2 2
2
~ ' F r o m a(O) a t s m a l l :[:Adopted v a l u e s .
CZS
O 19 0 12 0 45 0609
3 3 7
0 66 9 0 014 6 0.05 13
67
angles.
MeV
81C101
NUCLEAR
145~464~81_1
145Gd
sr;
Q(fl-)=-6750 E(level)
S(n)=9070
SY;
Q(a)=4590
Adopted
SHEETS
i~Gdsl-I
Levels
85Wa02.
Tl/ 2
J~
0.0
50
DATA
1/2+
23.0
min
ns
27.3
I
3/2+
11.5
748.7
1
11/2-
85
1015.1 1272.9 1415.3
5/2+ 7/27/2+
<0.3
ns
1498.0 1524.7 1666.3 1683.9 1809.9 2181.8
5/2+ (5/2,7/2)712(-) 9/29/2(912-)
<0.3
ns
2195.6 2200.1
13/2+
20.4
ns
Comments 4
%t+%p+=10d. Ti/g. f r o m 82Fi01; others: 23.9 rain I (77Ho18), 21.8 rain 6 (71Ep01), 23 rain I (704r04), 22.9 rain I (68Ke14). J1r: a t o m i c b e a m (76Fu06), log ft=5.75 to 1758 level in 145Eu w i t h positive parity (L=2 in (3He,d)). TI/2: f r o m IT d e c a y (75Fi02). J~r: 7 to 1/2+ is MI+E2. % I T = 9 4 . 3 5; %~+%~+=5.7 5. Tt/2: f r o m IT d e c a y : u n w e i g h t e d a v e r a g e : 85 s 3 ( 7 0 E p 0 2 ) , 85 s 7 ( 8 9 J a 0 2 ) , 78 s 8 ( 7 0 8 e Z P ) , 92 s 4 ( 7 4 K 0 2 9 ) , J~r: 7 to 3 / 2 + is M4. J1r: 7 to 3 / 2 + is A J = I MI+E2, 7 f r o m higher spin levels. J~r: ~ to 5 / 2 + is El, 7 to 11/2- is E2. Ti/z: f r o m (3He,2nT) (82Pa04). J~r: V to 3 / 2 + is A J = 2 E2. J1r: 7 to 3 / 2 + is MI+E2, V to 7 / 2 is A J = l D. J~r: T to 5 / 2 + is El, V t o 7 / 2 + . J~r: 7 to 7 / 2 is A J = 0 D+Q. J~r: 7 to 1 1 / 2 - is A J = I MI+E2, "/ to 7 / 2 + is El. JTr: T to 7 / 2 is A J = I MI+E2, y i e l d . J~r: -y to 1 1 / 2 - , 7 / 2 with comparable I7, log f t = 5 . 3 v i a ( 1 1 / 2 - ) parent. T1/z: f r o m ( 3 H e , 2 n T ) ( 8 2 P a 0 4 ) . J~r: ")/ to 1 1 / 2 - is A J = 0 MI+E2. T1/2: f r o m ( 3 H e , 2 n T ) ( 8 2 P a 0 4 ) . J ~ : 7 to 7 / 2 is E3, 7 t o 1 1 / 2 - i n c l u d e El c o m p o n e n t . J1r: 7 to 9 / 2 is A J = l MI+E2, ~ to 7 / 2 is A J = 2 E2. J ~ : 7 to 1 1 / 2 - is A J = t El, y i e l d . J ~ : 7 to 9 / 2 is AJ = 0 D+Q. J~r: 7 to 1 3 / 2 + is A J=1 MI+E2, V f r o m 1 7 / 2 + .
3
s 3
11/216
2258.5 2301.6 2382.3 2411.4 2411.8 2432.4
11/213/2+
2442.7 2472.4 2784.1 2823.2 2872.6 2886.0 2974.8 2987.3 3176.2 3195.1 3207.3 3285.1 3354,2 3357,1 3458.4 3469,6 3511.7 3573.6 3585? 3603?
13/2-
Ti/2: f r o m (3He,2nT) (82Pa04). JTr: -y to 11/2- is A J=3 E3, 3, to 15/2+. Jvr: ~ to 11/2- is A J = l MI+E2.
(II/2+,13/2+) 15/2+
J1r: 3, to 11/2- m a y be El+M2, 7 to 13/2-. J1r: 7 to 13/2+ is A J = I MI+E2, yield.
17/2+
JTr: 7 to 15/2+
is A J = I
19/2+
21/2+
Jw: 7 to 17/2+ J1r: ~ to 19/2+
is A J = I MI+E2, yield. is A J=l D, ~ to 17/2+, yield.
(19/2)
J~r: T to 1 7 / 2
(912-) 15/2+ 0.37
17/2+
ns
15
145Gd
E(level) 27.3 748.7 1015.1 1272.9
IV
E7 27.3 721.8 987.8 1015.1 257.8 524.1
1 1
100 100 100 6 9 , 4 31 100 5 30 2
Adopted
Mult. MI+E2 M4 MI+E2 E2 El E2
7
is A J = l
a 2
+0.20
5
20 3 0,149
0.024 0.012
Continued
on
68
yield.
D.
radiations
6 0.09
MI+E2,
next
pa~e
Comments
B(M1)(W.u.)=0.0044 7; B(E2)(W.u.)=27 B(M4)(W.u.)=t.S5 7.
13.
145hA 64,au81
_9 ~
145Gd A d o p t e d E(level) 1415.3 1498.0 1524.7 1666.3
1683.9 1809.9 2181.8
2195.6
1388 225 1471 109 509 141 168 393 651 268 935 537 371 908 i432 1446 927.2 i451.3
2258.5
448 985 1552 200 572 698 1109 109 211 20
2411.4 2411.8 2432.4
2442.7 2472.4 2784.1
2823.2 2872.6 2886.0 2974.8
2987.3 3176.2 3195.1 3207.3
3285.1 3354.2 3357.1 3458.4 3460.6 3511.7 3573.6 3585? 3603?
I7
E7
2200.1
2301.6 2382.3
145hA -9 64,.~ ~ 8 1
NUCLEAR DATA S H E E T S
0 1 0 5 8 6 3 9 7 6 1 0 9 9 5 8
100 I0 100 8 100 23 100 45 45 63 100 100 15 76 100 100
4 10 4 40 9 18 9 23 13 10
6
Mult.
(continued) a
E1 D D+Q El MI+E2 MI+E2
0.021 +0.8
2
0.018
3 8 9
ET: f r o m **STb t decay. B(M 1 ) ( W . u . ) > 1.2~ 10-~; B(E2)(W.u.)>O.O033. B(E3)(W.u.)=52 7. M u i r . : 30% E 1 + 4 0 % M 2 + 3 0 % E3 f r o m a(K)exp and 7(6) in (3He,2n7) (82Pa04). B(E1)(W.u.)=6.* lO-*°; B(E3)(W.u.)=I.3. B(M2)(W.u.)=0.0018;
MI+E2 8 4
E3 EI+M2+E3
40 100 100 51 100 39 100 100 100 62
7 7
Mr+E2 E2 E1
1683.6 247.1 170.8 341.4 2035.3
10O 100 1O0 17 100
8
623 1 1062 7 474 6 190 7 532 1 563 4 544 6 201 4 290 2 220 3 309 1 775 5 795 9 77 8 379 4 149 8 024 7 101 3 1026 112.5 335,5 115.2 378.3 395,7
100 lOO 100 100 32 32 100 100 80 100 57 19 100 100 100 30 1O0 100 40 100 100 100 100 100
5 14 4 14
3
+0.3
1
0.033
D+Q
MI+E2 Mt+(E2) if MI+E2
<0.7
E3 MI+E2
+0.1
30
1
Mult.: (E3) (82Pa04) or El+M2 from a(K)exp and 7(6). MI+E2
30 20 43 29 10 6
3 6 20 20
5: f r o m RUL. M u l t . : a f o r d=O. 18, B(E3)(W.u.)=42
0.164
6 9
20 8 8
Comments
B(E2)(W.u,)>O.O081.
E2 D MI+E2
100 56
6 6 8 6 4 0 4 8 7 7
7 radiations
+0.8
3
0.012
E1 MI+(E2 MI+(E2 Mt+(E2 M1 D MI+(E2 D
Mr+E2
0.021
-0.13
4
D M1 D E2
69
(83Ba10)
145rZA
64~,.81
_q
NUCLEAR
~
T(145Eu) f r o m
DATA
SHEETS
145~,4 _q 64,~u81
145Gd ~ Decay (23 m i n )
82Fi01
Measured: T, 7 % XT, T T + , e / f l +, Q(/~-) ( 8 2 F i 0 1 ) , T, T T , T T + ( 7 1 E p 0 t ) T, Q ( f l - ) ( 7 7 H o 1 8 ) . Other measurements: 75Fi04, 75Fi05, 708eZP, 70Ne04, 70Ar04, 68Ke14, 590123, 59Gr10. Decay scheme is from 82Fi01. IT normalization: EIT(E.s.)=I00. Eft+=2500 200 (70Ar04), 2 5 0 0 150 ( 5 9 0 1 2 3 ) , 2 4 0 0 2 0 0 ( 5 9 G r / 0 ) ; Q(E)=5070 60 (82Fi01), 5000 (77Ho18). c/fl+(1041.71 level)=0.91 14. [/fl+(1758.03 level)=t.93 20. e/fl+(1761,32 level)=2.9 13, t/fl+(1880.62 level)=2.14 20. c/fl+(2048.8 level)=3.8 19. c/p+(2114.3 level)=13 6. 14. E/B+(2494.88 level)=5.2 E/fl+(2642.2 level)=8.0 18. E7 287.2 20 305.5 30 310.1 30 329.9 1 514.07 20 589.0 20 646 0 20 716 2 2 719 9 1 7 2 2 O? 2 0 751 0 20 754 6 2 808 4 1 8 1 8 0 20 838 8 1 854 1 20 933 7 20 949 7 1 952 961 973 984 992
1013 1014 1041 1072 1082 1129 1181 1215 1220 1234 1366 1380 1381 1416 1421 1427 1430 1436 1441 1459 1461 1462 1466 1467 1513 1513.4 1561.9 1567.2 1576.0 1593.8
6 3 O? 2 0 8 20 O? 2 0 5 20 9 20
2 8
2 1
3
1 20 1
4 8
5 0 3 4 1? 1 0 3 7 9 8 3 5 6 6 9 6? 6 2
IT 1"
E(level)
1 20 20 20 20 1 20 20 1 20 4 2 20 3 1 20 20 20 20 2 20 I 20 1
2048.8 2416.8 2422.3 329.92 2114.3 2048,8 2562.5 1758.03 1761.32 2321,72 2318.68 2321.72 808.33 2699.7 1880.62 2422,3 2779 9 1758 03 1761 32 2562 5 2819 1 2585 7 2838 7 2859
2
2779 1041 1880
9 71 62 7 7 14 8
2838
1459 3062 2971 2027 2042 3768 2188 2422 3879 2463 1758 1761 1765 3768 1459 3062 3228 3547 3931 3628 2321
8
9 9 4 3 8 5 03 32 8
9 7 14 7 t? 7 3 72
3888
9
1567 3176 4275 2402
12 3
9 25
0 0 0 2 0 0 0 0 0 0
E7
007 007 011 7 2 007 015 019 071 105 020
1 2 2 2 3 4 6 10 6
0
015
3
0 8 0
034 6 5 120
6
1598 1599 1600 1613 1620 1648 1658 1678 1686 1696,4
13
0302
0 0 0
034 5 013 3 68 4
1 50 9 0 032 5 0 010 4 0 032 5 0 010 4 0 010 3
0 071 996 282 0 029 0 024 0 074 0 046 0 016 0 041
13 7 4 7
O. 0 8 2
11
1891.0
6
1915.5 1934.87 1988.5 1999.0 2021.7 2027,8 2040.9 2042.9 2049.1 2054.1 2056,7
5 3
0.07 2 0 . 054 8 0,008 4
8064.0 2073.9 2077.9 2079.1 2083.7 2083,9 2087.2 2091.47 2100.4 2110.6
0 . 042 6 0.12 3 0.061 12 0.30 2 0.016 7 0.081 9 0.28 2 0.025 5 0.029 8
0.007 0.017
2144.2?
3
2149.0 2149.6 2157.9 2158.6 2163.4 2175.8 2181.2? 2187.8
5
0.35
2
0.014 0.97
6
6
0. 025 0,019 0 , 176
Continued
6 20 0 20 1 1 9 1 3 1 9 20 0 1 6 2 6 I 2
1719,1 1750.17 1755.0 1757.9 1782.9 1784,4 1788,5 1796.1 1844.07 1845,4 1858.3 1872.6 1880.6
6 6 11
on
next
page
I~t
E(level) 2642 3199 1600 2422 3220 3705 2699 2487 2494 2504
41
2
2048
8
20 20 1 20 1 20 20 20 1 20 20 I 2 2 20 ! 20 20 1 20 I 4 1 20 20 20 20 1 1 20 20 2 1 1 3 20 1 20 20 1 20 1 3
2079
1
4281
8 03 6
1758 4308
2114 4709 3561 4308 1845 3738
2699 1915
5
2203 1880
0 0 I 0
0 0
095 11 039 10 7 6 10 1 3 0 11 I0 6
024
8
0 38 2 0 052 8 0 1 0 5 12 0.043 7
88
3 9 9 6 32 9 4 62 7
1.05 7 0.033 5 0.046 11 34.2 20 0.036 10 0.40 3 0.075 10 0,007 3 0.007 3 0.53 4 0.10 2 11 0.109 32.6 19
2742
7
0.43 0.19 0.048
2318
68
0.090
4047 3062 2027 3920 2042 2048 2054 3939 3944 3920 4281 2079 4547 3962 3847 4410 4502 2918 4258.6 3747.2 2149.6 2487.2 4003.9 2971.8 4700.3 4502.8 2188.4
9 14
0,057 0.105
8
0.148
7 9
0.07 0.049 0.15
2
0,080 0.08 0.09
2 2
(footnotes
70
2 1 26 3 6 4 7 2
8
1 3 6 7
2 2
9 10 5 8 11
2 10 11
0.018 0.066
8
1 2 9 9 1 8 9
0.11 0.099
0.027 0.076 0.049 0.205 0.138
0.037 0.070 0.130 0.032 0.022 0.119 0.032
at
end
7 14 2 8
7 14 10 13 13 5 15 9 4
0.105
7 12 10 9
0.018
8
of
table)
70
NUCLEAR
t45nn 4 64'.~ u 81 -
7(145Eu) f r o m
E7 2192 0 2195 2 2202 0 2203 0 2203 4 2227 0 2232 6 2239,7 2253.9 2276.17 2283.5 2292.0 2293.5 2302.0 2313.07 2318.9 2322.0 2327.3 2349.0 2360.97 2387.3? 2390.9 2396.5 2409.9 2413.3 2416.8 2422.9 2425.6 2429.6 2451.9 2453.0? 2458.9 2463.3 2469.6 2487.8 2494.8 2504.3 2508.0 2509.2 2521.5 2539.0 2544.9 2554 8 2562 7 2573 9 2585 7 2589 2 2591 3 2597 3? 2603 2 2606 I 2609 6 2622 1 2624 7? 2633 1 2642 2 2662 7? 2670 0 2670 79 2675 2 2677 9 2691 0 2697 2 2700 9 2708 5 2714 4 2738 7 2742 7
EIlevel ) 20 2 20 20 1 1 2 3 2 6 3 4 2 20 20 1 4 7 1 4 2 2 4 20 2 1 l 1 1 2 20 1 8 1 3 1 I 20 20 20 20 7 7 7 1 1 2 20 2 2 2 2 1 2 20 1 2 20 2 3 2 9 9 9 1 5 i 1
3001.5 2525.2 4281.8 4390.7 2203.4 4275.9 2562.5 3280.9 3062.14 4390.7 4044.5 3101.1 4051.7 4184.0 2642.2 2318.68 2321.72 2327.3 2340.0 4410.1 4436.1 3199.1 4275.9 3451.6 4258.6 2416.8 4184,0 4184.0 3238.0 4051.7 4502.8 3267.2 2463.5 4069,9 2487.2 2494.88 2504.41 4390.7 4275.9 4281.8 4308,6 2544.9 4436.1 2562.5 4454.44 2585.7 3397,6 4472.8 4645,6 3411.6 2606.1 4454,44 4502,8 4390.7 3675.7 2642,2 4424.0? 4428.3 4432.0? 4275,9 4436,1 4258.6 4454.44 2699.7 4308.6 4281.8 4496.6 2742.7
8 10 15 13 3 13 10 7 9 2 3 3 3 5 8 4 14 2 6 5 13 8 6 5 2 2 8 13 8 3 6 5 6 13 7 8 7 ? 7
0.018 0,04 0.010 0.054 0.061 0.043 0.102 0.33 0.048 0.006 0,039 0.052 0.127 0.051 0.052 0,0t7 0.033 2.09 0.062 0.039 0.066 0.064 0.085 0.021 0 08 0 021 0 064 0 079 0 068 0 114
2 5 9 12 7 8 2 13 3 4 11 9 8 11 6 4 12 9 9 6 10 10 4 2 4 6 6 5 7
Continued
SHEETS
145Gd c Decay (23 m i n ) B7
E(level)
2754 1 1 2764 8 1 2779 9 1 2789 5 2 2797 4 2 2800 7 2 2804 9 2 2809.9 2 2819.8 2 2828.2 1 2831.0 20 2836.0 2 2838.7 I 2842.9 2 2853.2 2 2860.9 2 2867.4 2 2884.1 2 2087.9 6 2898.9 2 2902.3 2 2907.2 7 2918.6 2 2947.1 3 2947.2 20 2955.4 2 2971.9 4 2980.1? 3 2988.1? 4 2992,9? 3 3001.5 2 3009.?? 2 3034,0 3 3039,5 2 3053.0 20 3063.1 2 3079 0 2 3092 0 2 3101 2 2 3114 2 2 3141 3? ? 3176 3 2 3177 4? 20 3188 O? 2 0 3198 3? 4 3217.2? 6 3220,7 3 3239 4? 7 3243 2? 7 3253 6? 3 3261 1 2 3 2 6 6 0 20 3280 7 2 3290 4 4 3299 2 4 3312 5 2 3324.9 20 3343 5 3 3348 4 3 3376 9 7 3389 1? 4 3394 5 3 3408 3? 20 3413 1 3 3454 3 3 3460 9 3 3473 9 5 3505 3 4
2754.1 4645.6 2779.9 4547.2 4555.4 4566.4 4566.4 4410,1 3628.3 4428.3 4709,9 4436.1 2838.7 4410,1 4454.44 4428.3 3675.7 4845,6 4645.6 3705.4 4663.8 3949.8 2918,9 4547.2 3988.9 4555.4 2971,8 4547.2 2988.17 4593,0 3001,5 4051.7 4634.6 3847.9 3383.0 3062.14 3408.9 3092.0 3101,1 3444,2 3949,8 3176.3 3507.4? 3520.0? 3199.1 4258.6 3220.6 3238.0 4051.7 3253.6? 3261,1 3267.2 3280,9 3620.2 3628,3 3312.5 4131.4 3343,5 4156.7 4184.0 3389.17 4436,1 3409.9 4454.44 4496.6 4502.8 4281.8 4547.2
17t
0.034 0.099 0.063 0.052 0.45 0,140 0.035 0.016 0,078 0.006 0.026 0.05 0.10 0.015 0.056 0.052 0.118 0.04 0.050 0,022 0.054 0.032 0.035 0.018 0.34 0.33 0.074 0.192 0.091 0.15 0,019 0.035 0.042 0.080 0,036 1.33 0.099 0.023
DATA
on
next
pa~e
(footnotes
71
145nn 64~u81
82FiOl ( c o n t i n u e d ) I71 0 043 3 0 072 5 0 041 5 0 069 8 0 037 6 0 0 3 9 10 0 062 9 0,034 6 0.021 2 0,087 6 0.024 8 0.20 2 0,34 2 0.060 5 0.048 5 0.027 4 0.084 8 0,109 9 0.045 4 0.083 5 0,029 3 0,035 8 0.052 4 0,098 10 0.064 9 0.041 9 0.021 5 0.028 7 0,023 3 0,026 6 0.055 6 0.051 5 0.088 3 0.059 9 0.18 3 0.068 5 0.041 3 0.219 13 0.160 10 0.051 4 0,031 3 0,054 5 0.07 2 0.08 2 0.017 3 0.014 2 0.035 2 0.027 4 0.019 3 0.027 3 0.094 6 0.12 2 0.053 5 0.015 4 0.007 3 0,051 4 0.006 2 0.048 3 0 023 3 0 023 5 0 022 4 0 018 2 0 023 3 0 059 3 0 015 5 0 069 8 O 1 7 9 10 0 031 4 at
end
of
table)
_A
-~
145n,q 64~81
_~~
NUCLEAR
7(14~Eu) f r o m
3512.8 3520.9? 3525.6? 3547.4? 3550.7 3556.5? 3578.4? 3582.9 3598.6? 3601.5 3604.2 3619.8 3623.1 3626.2 3632.7 3643.8 3645.8 3656.2 3664.1 3684.3 3687.7 3694.3 3705.8 3738.7? 3746.9 3757.7 3769.0 3785.4 3801.3 3826.8? 3848.0? 3888.87 3891.7 3901.7 3920,87 3928.8 3931.8? 3940.2? 3950.7? 3953.3 3962.9 t
For
3 7 7 5 3 3 4 3 3 3 3 7 7 9 3 3 3 7 4 3 3 3 3 3 3 4 4 6 3 4 4 4 4 4
5 4 6 7 7 20 5
absolute
4555 3520 3525 3547 4593 4364 3578 4390 3598 4410 4645 3620 4663 4436 3962 3643 4454 4463 4472 4014 4496 4502.8 3705.4 4547.2 3747.2 4566.4 3768.9 4593.0 4131.4 4634,6 3847.9 3888.9 4700.3 4709.9 3920.7 4258,6 3931,7 3939.3 3949.8 4281.8 3962.9
4 O? 6? 1? 0 8 4? 7 6? I 6 2 8 I 9 8 44 8 8 1 6
intensity
c
I?t
E(level)
ET
'45Cd
per
10 1 1 4 5 4 2 3 3
9 3
0.010
4
0.025 0,015 0,064 0.076 0.004 0,013 0.117 0.135 0.046 0.032 0.024 0.035 0.009 0 016 0 014 0 077 0 009 0 010 0 022 0 019 0 028 0 009 0 049 0 007 0 007 0 009 0 015 0 021
3 2 8 6 2 2 8 9 4 2 2 8
3977.9 4012,3 4021,6 4023.8 4043.8 4051.2 4068.9 4081.27 4107.0 4155.0? 4184.6 4188 2 4217 2 4258 4 4275 9 4281 7 4307 3 4316 3 4364 5 4370 7? 4379 9 4390 ? 4409 8 4427 8 4453 8 4463 1 4473 3? 4502 6 4517 5? 4536 8 4547 1 4554 5 6 4566 4 5 7 7 8? 4593 4? 4634 9? 4645 7 4656 2 4663 8 4685 3 4699 6
4
I 5 2 7 2 1 3 3 3 2 3 2 2 2 3 4
decays,
multiply
fl+,c Data M e a s u r e d : TO t h e r : 70SeZP. Branching: from I(3867)/I(7217)=0,048 Evaluator assigned uncertainty of
from
by
5 9 4 9 4 9 6 4 5 15
4 4 4 9 9 9 4 4 5 6 7 5 5 5 7 6
5 8
5 5 5 6 5 9 6 9 5 9 9 6 9
329.5 386.6 (716)
$
3 3
E(level)
Mult.
329.5 716,1 716. I
M2 E3
Adopted values. For absolute intensity
per
?
a
100
E(level)
i?t
4308,6 4014.1 4021.6 4023.8 4044.5 4051.7 4069,9 4410.1 4436.1 4156.7 4184.0 4517.9 4547,2 4258.6 4275.9 4281.8 4308.6 4645.6 4364.8 4700.3 4709.9 4390.7 4410.1 4428.3 4454.44 4463.8 4472.8 4502.8 4517.9 4536.9 4547.2 4555.4 4566.4 4577.9? 4593.0 4634.6 4645.6 4656,3 4663.8 4685.4 4700,3
0.007 0.033 0 023 0 024 0 013 0 015 0 027 0 008 0 006 0 022 0 025 0 013 0 037 0 082 0 070 0 078 0 041 0 031 0 006 0 012 0 022 0 033 0 013 0 027 0 002 O 007 0 032 0 008 0 019 0 015 0 017 0 019 0 004 0 004 0 005 0 046 0 008 0 005 0 008 0 002
decays,
multiply
o.o41 5 I
I(386T)/I(7167)=3,85 ratios.
14sOd ~ Decay (85 s) I(386T)/I(7167)=3,85 ratios.
I T + c e :~
0.1678 0. 01341
82Fi01 ( c o n t i n u e d )
14~Gd ~ Decay (85 s)
Branching: from I(386~,)/I(7217)=0.048 (70Ep02) and Evaluator assigned uncertainty o f 10% t o p h o t o n E7
100 26
by
145F'_rl 64,., u 8 1 - - ~r-,
3 3 4 2 2 3 1 1 2 3 2 4 9 7 5 3 2 1 2 2 2 1 4 1 1 5 1 2 1 1 2 I I I 3 1 1 1 1
1.0.
(70Ep02) and 10% to p h o t o n
7(i45Eu) f r o m
SHEETS
Decay (23 m i n ) E7
0.054 0.009 0.010 0.025 0,057 0,017 0,013 0.041 0.026 0.051 O. 1 4 1 0.030
100
DATA
70Ep02
in
(SLi.3nT)
(80RaOl).
70Ep02 in
(SLi,3nT)
(80Ra0l).
Comments
I7+ce:
0.057
72
5,
from
I7(3867)/I3'(7167)
in
(eLi,3nT)
(80Ra01).
145F'_,4 --6 64,J,-~ 81
t45Gd L e v e l s M e a s u r e d : 7, 7 7 , XT, 7 7 ( t ) . Other measurements: 70SeZP, E(level) 0.0 27.3 748.7
J~
11.5 85 s
Branching: E7
see
1"A d o p t e d
ns 3
on
Mult.
5.47
MI+E2
27,3
721.4
4
748.7
absolute
100
intensity
per
~ 0.090
multiply
Levels
0
0
3 8 1 9 3 0 7 3 9 9 8 6 1 5 6 3 4 8
by
$
7/2+
<0.3
ns
<0.3
ns
20.4
ns
(5/2,712)7/2(-) 9/29/2tl/213/2+
0.820
[6
11/213/2+ (9/2-) 15/2+
7 (70Ep02).
5.
E=24
MeV
83Ba10
(82Pa04).
2432.4 2442.7 2472.4 2784.1 2823.2 2872.0 2886.0 2974.8 2987.3 3176.2 3195.1 3207.3 3285.1 3354.2 3357.1 3458.4 3469.6 3511.7 3573.6
5/2+
(9/2-)
M u l t . , 6 : f r o m a ( L ) e x p = 1 6 . 9 14. IT: f r o m I ( T + c e ) b a l a n c e . M u l t . : a ( K ) e x p = 0 . 1 2 2, K / L = 5 . 4 ET: f r o m 7 0 2 p 0 2 .
3
E(level)
TI / ~ $
1/2+ 3/2+ 11/2512+ 7/2-
!
20
Comments
144Sm(3He,2nT)
from
75FiO2,70Ep02
a 22
E = 1 8 - 2 6 MeV (83Ba10); 1 2 . 6 - 2 7 MeV ( 8 2 P a 0 4 ) . M e a s u r e d : "y, T3', 7 ( 0 ) , ce ( 8 3 B a 1 0 , 8 2 P a 0 4 ) , T ( t )
27 748 1015 1272 1415 1498 1524 1666 1683 1809 2181 2195 2200 2258 2301 2382 2411 2411
s)
0.1490
100 d e c a y s ,
J~
(85
(85 s).
M4
145Gd
E(level)
75FiO2,70Ep02
values.
145Gd IT D e c a y
145Gd ¢ d e c a y
17 t
1
For
comment
(85 s)
3
E(level)
27.3
'45Gd IT Decay
164 4 5 h~A8 1 _ a
69Ja02.
TI/~
1/2+ 3/2+ 11/2-
I 4
from
~(145Gd) f r o m
t
DATA S H E E T S
NUCLEAR
Jv~
TI/~$
17/2+ 13/2-
0.37
ns
15
(11/2+,13/2+)
15/2+
17/2+
19/2+ 21/2+
Adopted values. From 82Pa04.
7(145Gd)
ET t
E(level)
20.7§
2
27.3 § 77.8§ 101.3
I
109.5 109.8
I T 1"
2432.4 27.3 3285.1 3458.4
40 2 1 2 5 15 52 20 4
1524.7 2411.4
4 105
2 8
Continued
from
144Sm(3He,2nT)
E=24
MeV
83Ba10
Mul t . ~'$
D+Q
on n e x t
Comments
M u l t . : A z = - 0 . 2 1 7, A 4 = + 0 . 0 5 A4=-0.04 3 (82Pa04).
8; o t h e r :
A2=-0.21
2,
M u l t . : A2= 0.19 2, A 4 = + 0 . 0 6 A¢=-0.01 2 (82Pa04).
2; o t h e r :
Az=-0.21
1,
page
(footnotes
73
at
end
of
table)
145~_A -7 6 4 " ' u- 81
NUCLEAR
7(*4SGd) f r o m E(level)
v.Tt
112.5 115.2 141 . 6 149.8 168.3
3489.8 3573.6
171
M u l t , t$
1666.3
2 4 2 4 4
170.8 § 8 190.7
2472.4 2974.8
4 25
[ 5
201.4 211,7 220.3 225.1 247.1
3176.2 2411.8 3195.1 1498.0 2442.7
10 15 7 5 42
3 5 3 2 4
D MI+(E2 D D MI+E2
257.8
1272.9
176
8
E1
268.6
1683.9
25
5
EI
290.2 309.1 335.5§ 341.4 371.9 379,4 393.9 448.6
3176.2 3195 3511 2784 2181 3354 1666 2258
8
2
MI+(E2
474.6
1666.3
1 7 1 8 2 3 5
Comments
M u l t , : a ( K ) e x p = 0 . 3 3 9, A ~ = - 0 . 3 1 I, A4=+0.01 2 ( 8 2 P a 0 4 ) ; o t h e r : A 2 = - 0 , 2 4 4, A 4 = + 0 . 0 3 5 (83Ba10). M u l t , : A z = - 0 . 2 I, M u l t . : A 2 = - 0 . 3 6 9, A 4 = - 0 . 0 3 12. M u l t , : A z = - 0 . 2 7 11, A ~ = - 0 . 0 6 14. Mult.: A2=-I.04, M u l t . : a ( K ) e x p = 0 . 1 3 3, A 2 = - 0 , 0 1 I, A 4 = - 0 , 0 1 2; o t h e r : a ( K ) e x p = 0 , 1 5 3, A 2 = - 0 . 0 0 2, A4=-0.02 2 (82Pa04). M u l t , : a ( K ) e x p = 0 , 0 2 1 5, A 2 = - 0 , 1 2 3, A4=+0.01 I; o t h e r : a(K)exp=O,Ol9 3, A 2 = - 0 , 1 3 3 4, A 4 = - 0 , 0 1 1 6 ( 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = 0 . 0 2 5 9, A 2 = - 0 , 1 2 3, A 4 = + 0 . 0 0 5; o t h e r : a ( K ) e x p = 0 . 0 1 7 5, A 2 = - 0 . 2 0 3, A 4 = - 0 . 1 0 5 ( 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = 0 . 0 7 2,
+0.1
1
42 ET: f r o m
D+Q MI+E2
2886.0
15
3
E1
509.8 524.1
1524,7 1272.9
50 52
20 4
El E2
532.1 537.0
2974.8 1809.9
8 2 78 6
Mt+(E2 Mi+E2
544.6 563.4
2987.3 2974.8
10 3 8 2
MI MI+(E2
572.4 623.1 651.7 721.5
2382.3 2823.2 1666.3 748.8
7 2 28 4 10 5 I000
775.5§ 795,9
3207.3 3207.3
6 3 32 2
+0.3
!
+0.8
2
8 3 0.04
D+Q MI+E2
+0.8
3
MI+E2
-0.13
4
and
coin
data
2200.1
72
6
E3
935,1
1083.9
40
4
MI+E2
next
M u l t . : a ( K ) e x p = 0 . 0 0 5 2, A 2 = - 0 . 5 2 4, A ~ = - 0 . 0 2 6; o t h e r : a ( K ) e x p ~ 0 . 0 1 , A z = - 0 . 4 7 1, A ~ = - 0 . 0 4 2 ( 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = 0 . 0 0 4 8 10, A 2 = - 0 . 6 4 3, A 4 = + 0 . 0 5 5; o t h e r : a ( K ) e x p = 0 . 0 0 5 0 6, A 2 = - 0 . 6 2 1, A 4 = + 0 . 0 3 2 ( 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = 0 . 0 0 5 7 10, A a = + 0 . 3 0 3, A4=+0.08; o t h e r : a ( K ) e x p = 0 . 0 0 6 1 6, A2=+0.33 4, A 4 = + 0 . 0 4 6 ( 8 2 P a 0 4 ) . B(E3)(W.u.)=52 7. M u l t . : a ( K ) e x p = 0 . 0 0 4 6 7, A 2 = - 0 . 1 7 4, A 4 = + 0 . 0 4 5; o t h e r : a(K)exp=O.O053 7, A e = - 0 . 1 9 4, A ~ = + 0 . 0 5 6 ( 8 2 P a 0 4 ) .
Mt
on
scheme
(83Ba10).
M u l t . : 7(8) is i s o t r o p i c b e c a u s e o f l a r g e T l / z = 8 5 s; a ( K ) w a s u s e d f o r n o r m a l i z a t i o n of a(K)exp for other gammas.
M4
927.2
Continued
level
M u l t . : A z = + 0 . 4 1. M u l t . : a ( K ) e x p = 0 . 0 2 2 7, A~=+0.14 9, A 4 = + 0 . 0 5 1; o t h e r : a ( K ) e x p < 0 . 0 3 , A a = + 0 . 3 0 8, A 4 = - 0 . 0 8 12 ( 8 2 P a 0 4 ) . Muir.: a ( K ) e x p = 0 . 0 0 7 3, A 2 = - 0 . 3 1, A 4 = - 0 . 1 1; o t h e r : a ( K ) e x p = 0 . 0 0 6 3, A 2 = - 0 . 2 5 2, A4=-0.09 4 (82Pa04). M u l t . : a ( K ) e x p = 0 . 0 0 3 5 20 ( 8 3 B a 1 0 , 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = 0 . 0 1 1 2, A2=+0.15 3, A 4 = + 0 . 0 3 4; o t h e r : a ( K ) e x p = 0 . 0 1 2 3, A2=+0.11 I, A 4 = + 0 . 0 3 2 ( 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = 0 . 0 1 5 5. M u l t . : a ( K ) e x p = 0 . 0 1 6 2, A e = + 0 . 3 3 2, A 4 = + 0 . 0 4 3; o t h e r : a ( K ) e x p = 0 . 0 1 8 2, A2=+0.28 1, A 4 = + 0 . 0 6 2 ( 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = 0 . 0 2 5 8. M u l t . : A z = - 0 . 1 I (83Ba10), a ( K ) e x p = 0 . 0 1 8 5 (82Pa04). M u l t . : A~=+0.4 3. M u l t . : a ( K ) e x p = 0 . 0 1 2 4, A2=+0.51 6; A 4 = + 0 . 0 2 8.
%
2181 .8 3357. 1
83Ba10 ( c o n t i n u e d )
&
MI+(E2
4 2 2 2 2
5
145p_A 8 4 "" "" 81 - - "
M u l t , : A 2 = - 0 . 1 5 5; A ~ = - 0 . 0 5 5. M u l t , : A 2 = - 0 . 1 5 6, A ~ = + 0 . 0 3 5; o t h e r : A 2 = - 0 . 2 1 2, A 4 = - 0 , 0 7 3 ( 8 2 P a 0 4 ) ,
12 4 4 10 12
908.9 924 . 7
SHEETS
144Sm(3He,2nT) E=24 MeV
5 8 5 25 22
3357.1
DATA
pa~e
(footnotes
74
at
end
of
table)
16445~n8~1
_ ~~
NUCLEAR
7(14~Gd) E7 t
E(level)
from I7 ~
985.6
2258.5
30
987.8
1015.1
1015.1 1026.0 1062.7 1109.4 1388.0
DATA
144Sm(3He,2nT) Mult.
E=24
t$
2
E2
320
20
MI+E2
1015.1 3458.4 2872.6 2382.3 1415.3
30 8 30 15 120
10 4 5 5 10
E2
1446.8
2195.6
115
8
MI+E2
1451.3
2200.1
40
3
EI+M2+E3
1471.0
1498.0
50
5
Mr+E2
1552.8
2301.6
265
15
E1
1683.6
2432.4
65
5
E3
2035.3
2784.1
70
6
SHEETS
MeV
7(i45Gd)
83Bat0
(continued)
~
Comments
+0.20
M u l t . : a ( K ) e x p = O . 0 0 3 1, A 2 = + 0 . 3 1 11, A 4 = + 0 . 0 5 14. Mult.: a(K)exp=0.0032 5; A z = + 0 . 0 1 1, A 4 = + 0 . 0 0 1; o t h e r : a ( K ) e x p = 0 . 0 0 4 1 3, A 2 = - 0 . 0 4 1, A 4 = + 0 . O l 2, ~ = + 0 . 1 0 4 ( 8 2 P a 0 4 ) . Mult.: (~(K)exp=0.0021 6 (82Pa04).
5
M u l t . : a ( K ) e x p = 0 . 0 0 1 1 3, A z = + O . 1 9 2, A 4 = - 0 . 0 5 3; o t h e r : a ( K ) e x p = 0 . O 0 1 2 2, A 2 = + 0 . 1 5 3, A 4 = - 0 . 8 1 5 ( 8 2 P a 0 4 ) . MulL.: a ( K ) e x p = O . 0 O l 2 3, A z = + 0 . 2 1 4, A 4 = - 0 . 0 2 4; o t h e r : a ( K ) e x p = 0 . 0 8 2 2 3, A e = + 0 . 1 6 2, A 4 = - 0 . 8 3 2 ( 8 2 P a 0 4 ) . MulL.: a ( K ) e x p = 8 . 0 0 2 5 6, A z = - 0 . 0 8 1, A 4 = - 0 . 0 7 2, 30% E1+40% M2+39% E3 ( 8 2 P a 0 4 ) ; other: a(K)exp=0.0014 5, A z = + 8 . 0 5 6, A 4 = - 0 . 0 4 9, E I + ( M 2 ) ( 8 3 B a 1 0 ) . Mult.: a(K)exp=0.0014 4, A z = - 0 . 0 3 10, A 4 = + 0 . 0 8 15 ( 8 2 P a 0 4 ) ; o t h e r : A 2 = - 0 . 0 5 10, A4=+0.05 d(83Bat0). MulL.: ( ~ ( K ) e x p = 0 . O 0 0 4 6 5, A 2 = - 0 . 1 6 1, A 4 = - 0 . 0 2 2; o t h e r : a ( K ) e x p = 0 . 0 0 8 4 6 6, A a = - 0 . 2 0 1, A 4 = + 0 . 0 8 ( 8 2 P a 0 4 ) . M u l t . : a ( K ) e x p = O . O O l 6 2, A z - + 0 . 3 5 4, A 4 = + 0 . 5 5; o t h e r : ~ ( K ) e x p = 0 . O O l 6 3, A 2 = + 0 . 4 7 3, A 4 = + 0 . 0 2 4 ( 8 2 P a 0 4 ) . B ( E 3 ) ( W . u . ) = 4 2 18. M u l t . : c ~ ( K ) e x p = 0 . 0 0 1 0 2 (E3) ( 8 2 P a 0 4 ) ; o t h e r : 12, A 2 = + 0 . 2 8 5 A 4 = - 0 . 1 3 6, a(K)exp=0.88084 may be El+M2 (83Ba10).
E2
~; F r o m 8 3 B a t O a t E ( a H e ) = 2 4 MeV e x c e p t w h e r e $ a(K)exp were normalized to a(K)(7217)=0.t15 § From 82Pa04.
16445~a8A1
-1.2
+8-4
noted otherwise. f o r p u r e M4.
from
74Ko29,80HaZY
144Sm(a,3nT)
E - 5 0 MeV (80HAZY), 43, 4 5 , 52 MeV ( 7 4 K o 2 9 ) . M e a s u r e d : 7, 7 7 , 7 ( 0 ) , y i e l d ( 7 4 K o 2 9 , 8 0 H a Z Y ) , ce (80HAZY). E(level)
E7 ~ 20 (27
101 109 149 378 395 721 794 x884
924 1026 1553 1884 x1860
$ § # *
7 3) 3
1 0 3 7 8 8
2 3
3 3
8# 3 8 3
0 5 3 1 3 5# 3
2433 27.3 3458 2411 3357 3585? 3603? 749 3207 3357
3458 2302 2433
Mult.
[7 t
$§
Comments ET: o b s e r v e d
884 11 9
80HAZY.
10, A 4 = + O . 0 1 4. 7, A 4 = + 0 . 0 4 5. 4, A 4 = - 0 . 0 6 5.
Mult.:
A2=-0.48
7 at
E(a)=52
MeV ( i f
A4=O.0).
MI+E2
Mult.:
A2=-0.45
4 at
E(a)=52
MeV ( i f
A 4 = 0 . 0 ).
MI
M u l t . : A 2 = - 0 . 7 2 25, A 4 = - 0 . 0 3 10. E 7 , M u l t . : f r o m 80HAZY. MulL.: A z - - 0 . 1 1 6, A 4 = + 0 . 0 2 8. M u l t . : A 2 = + 0 . 2 5 10, A 4 = - 0 . 0 5 10.
716
28 3 20 10 8 9 397
in
Mult.: Aa=-0.31 Mult.: Az=-0.26 MulL.: A 2 = - 0 . 0 9
6
858 304 l O 0 0 50 tO 5 11 3 15 23 5 14
only
E2 Et E3
F r o m 7 4 K o 2 9 a t E ( a ) = 4 5 MeV. A 2, A 4 f r o m 7 4 K o 2 9 a t E ( c 0 = 4 3 MeV e x c e p t w h e r e n o t e d o t h e r w i s e . Deduced from J~r b a s e d o n a ( K ) e x p ( n o t g i v e n ) a n d 7 ( 0 ) (80HAZY). Observed only by 74Ko29. T ray not placed in level scheme.
75
--~
145q~,
65-'80
NUCLEAR
t45Tb
Levels
from
145Dy
~
DATA
SHEETS
Decay
(13.6
S ( n ) = 1 1 3 2 0 SY; 8 ( p ) = 1 5 4 0 SY 85Wa02, M e a s u r e d : T, K x r a y ( 8 2 A I 0 7 ) , ~, ( 8 2 N o 0 8 ) . Decay scheme was proposed by evaluator on the assumption other N=79 nuclei with J=ll/2: t3°Nd, 1 4 t S m , 143Gd. E(level ) (O.O) O+y 578.2+y7 I" F r o m
J~r¢
T I /~
(I/2+) (11/2-) (9/2-) similarity
with
decay
of
Comments
s
15
schemes
of
29.5
"y(laSGd) f r o m
J=11/2-
65.b8o
82A107,82No08
similarity
with
E(level) 839.6+y? 804.3+y?
%r+%fl+=lO0.
other
s)
145T
N=79
nuclei:
27.3 200.6 246.6 257.7 268.5 371 .5 524.0
1 3 3 3 3 3 3 3 3
537.0 572.1 652.3 ¢ 3 698.0 3 721.4 3 908.5 3 935.1 3 987.6 3 1014 9 3 1109 3 3 1388 0 3 1432 5 3 1446 7 3 1471 5 ¢ 3
27 2381 2442 1272 1683 2181 1272 1809 2381 1667 2381 748
IV$§
3 8 0 7 8 2 7 7 8 2 8 7
7.2 4.1 39 4 3.0 1.4 I0 ! 23 2 14 2 1.1 5.5
2181 .2 1683.8 I014.9 1014.9 2381 . 8 1415.3 2181 .2 2195.4 1498 . 8
7.3 5.3 37 4 5.0 14 2 6.3 9.6 15 2 3. 3
Mult. MI+E2
t~'3Gd.
82No08,82StZU
a 2O
of
(13/2-) (9/2-,11/2-
Measured: 3, ( 8 2 N o 0 8 , 8 2 S o O 2 , 8 2 S t Z U , 8 1 A I 2 3 ) , ~/'y ( 8 2 S o 0 2 , 8 2 N o 0 8 ) . D e c a y s c h e m e is t h a t o f 8 2 N o 0 8 . IT n o r m a l i z a t i o n : i f IE(0 a n d 2 7 . 3 ) = 0 a n d u n p l a c e d T's w e r e n e g l e c t e d ( 8 2 N o 0 8 ) . "),'s: 280.4 4 (I-y=2.1 6), 397.2 4 (3 I), 586.4 5 (3 1)?, 736.1 6 (2.5 10), 769.0 3 (3.7 10), 794.2 5 (2.5 10), 858.3 5 (4 1), 1037.7 12 (2 1), 1 2 4 5 . 8 3 (6.5 12), 1294.1 5 ( 4 . 5 15), 1369.1 6 (4 2), 1 4 9 7 . 9 6 ( 4 . 2 14), 1514.2 6 ( 4 . 0 12), 1693.7 4 (9 2), 1 7 4 7 . 7 7 (5.5 30)?, 1779.8 8 ( 4 . 2 14), 1802.9 5 (7 2), o n l y b y 81A123 (IT 1809.9 8 (3.6 15), 1837.5 12 (2.5 15)?, 2 3 5 2 . 6 10 (6 3) w e r e o b s e r v e d normalized to IT(987.9)=100). E(level)
schemes
J~rI"
13gNd, 1 4 t S m ,
145Tb E D e c a y (29 s)
decay
ls
Comments
3
7 4 4 3
4 6 M4
0. 149
Isomeric decay
transition w i t h T t / 2 = 8 5 s, see f o r I(721.4~/) a n d I ( 2 7 . 3 T ) .
8 6 l'y: a s s u m e d 6 7 9 6
¢ Observed only by 81A123. $ F r o m 82No08. § For absolute intensity per I00 decays, multiply
by
1.0.
76
by
evaluator.
also
85 s IT
DATA SHEETS
NUCLEAR
:L45r,, 661JY79
145Dy A d o p t e d E(level)
145n, 661JY79
Levels
T1 / ~
Jw
Comments
(0.0) 0+x
(tl/g-)
13.6
s
10
%~+%fl+=100. Tl/z: from 82No08; other: Jvr: f r o m s i m i l a r i t y with t43Gd '
fl- r a d i a t i o n s
from
145Dy ~ Decay (13.6 s)
M e a s u r e d : "/, K x r a y ( 8 2 A 1 0 7 ) , 3, ( 8 2 N o 0 8 ) . Decay scheme was proposed by evaluator on the assumption other N=79 nuclei with J=ll/2: 139Nd, t * l S m , 143Gd.
"y(145Tb) f r o m 17 n o r m a l i z a t i o n :
E~ t x39.7 578.2? 639.6? 804.3?
3 3 3
I(839.67)=12%
E(level)
I7 ?t
578.2+y? 639.6+y? 804.3+y?
I00 93 77
18 s 3 ( 8 2 A 1 0 7 ) . decay schemes of
of
145Dy ~ Decay (13.6 s)
4 (82No08).
t From 83AI07. $ For absolute intensity p e r 100 decays, m u l t i p l y x 3, r a y n o t p l a c e d i n l e v e l s c h e m e .
by
0,13 5.
77
11/2-
isomers
in
13~Nd, i ~ l S m
82A107,82No08
similarity
with
decay
82A107,82No08
schemes
of
NUCLEAR DATA SHEETS
REFERENCES 54Ma07 55Si12 59Br65 59Dz06 59Gr10 590123 60A133 60Wil0 61An04 62AI19 62Be31 62Ho16 62NuOl 63A130 63Fr02 63We04 64Ho03 64Ma19 65De29 65Gr28 65Holi 651s01 65Ke09 66Ad01 66Bu13 66Ec02 66Go08 66Jo02 66Ka23 66Zh01 67Ba22 67Ch16 67Ch32 67Dr01 67Go32 67Hi05 67Ho19 67Ko09 67My01 670b03 68Ad04 68Ch30 68Ke14 68Wi21 69Gr32 69Ja02 69WiZX 70Ar04 70Be65 70ChO9 70Ep02 70Ka36 70Ne04
FOR
A
=
145
S . S . M a r k o w i t z , W . B e r n s t e i n , S . K a t c o f f - P h y s . R e v . 93, 176 ( 1 9 5 4 ) B . E . S i m m o n s , D.M.Van P a t t e r , K . F . F a m u l a r o , R . V . S t u a r t - P h y s . R e v . 97, 89 (1955) A . R . B r o s i , B . H . K e t e l l e , H . C . T h o m a e , R . J , K e r r - P h y s . R e v . 113, 239 (1959) B.S.Dzhelepov, I.M.Rogachev - JINR-P-483, Pt.3, p.90, (1959) J . R . G r o v e r - P h y s . R e v . 116, 4 0 6 (1959) J . O l k o w s k y , M.Le P a p e , I . G r a t o t , L . C o h e n - N u c l e a r P h y s . 12, 527 (1959) J.Alstad, A.C.Pappas - J.Inorg.Nuclear C h e m . 15, 222 (1960) R . G . W i l l e , R . W . F i n k - P h y s . R e v . 118, 2 4 2 (1960) N.M.Antoneva, A.A.Bashilov, B.S.Dzhelepov, K.G,Kaun, A.F.A.Meyer, V.B.Smirnov - Zhur.Eksptl.i T e o r e t . F i z . 40, 23 (1961); S o v i e t P h y s . J E T P 13, 15 (1961) Y.A.Aleksandrov, B.Bemer Izv.Akad.Nauk SSSR, S e r . F i z . 2 6 , 1159 ( 1 9 6 2 ) ; B u l l . A c a d . S c i . U S S R , P h y s . S e r . 2 6 , 1171 (1963) E.Y.Berlovich, G.M.Bukat, Y.K.Gusev, V.V.Ilin, V.V.Nikitin, M.K.Nikitin - Phys.Letters 2, 3 4 4 (1962) D . C . H o f f m a n - A E R E - M - 1 0 7 6 , p . 2 4 (1962) M.Nurmia, P.Kauranen, A . S i i v o l a - P h y s . R e v . 127, 9 4 3 (1962) D.G.Alkhazov, K.I.Erokhina, I.K.Lemberg Izv. Akad.Nauk SSSR, Ser. Fiz. 27, 1363 ( 1 9 6 3 ) ; B u l l . A c a d . S c i . U S S R , P h y s . S e r . 27, 1339 ( 1 9 6 4 ) A . M . F r i e d m a n , J . M i l s t e d , O . S k i l b r e i d - P h y s . R e v . 129, 1752 (1963) S . E . W e a r y , M.L.Pool, H . D . S p a n g e n b e r g - B u l l . A m . P h y s . S o c . 8, No.4, 321, GA16 (1963) D.C.Hoffman, W.R.Daniels - J.Inorg.Nucl.Chem. 26, 1769 ( 1 9 6 4 ) R . D . M a c f a r l a n e , D . W . S e e g m i l l e r - N u e l . P h y s . 53, 4 4 9 ( 1 9 6 4 ) [.Demeter, F.Molnar, E.Nadzhakov, A.F.Novgorodov - Izv.Akad.Nauk SSSR, S e r . F i z . 29, 2198 (1965); B u l l . A c a d . S c i . U S S R , P h y s . S e r . 29, 2 0 3 4 (1966) K.Y.Gromov, I.Mahunka, M.Mahunka, T.Fenyes Izv.Akad.Nauk SSSR, S e r . F i z . 29, 194 (1965); B u l l . A c a d . S c i . U S S R , P h y s . S e r . 29, 195 (1966) D . C . H o f f m a n , O . B . M i c h e l s e n - K R - 7 6 (1965) A.Isola, M.Nurmia - Z.Naturforsch. 20a, 541 (1965) R . A . K e n e f i c k , R . K . S h e l i n e - P h y s . R e v . 139, B1479 (1965) [.Adam, K.Vilskii, Z.Zhelev, M,Iorgensen, M.Krivopustov, V.Kuznetsov, O.B.Nilsen, M.Finger JINR-P-2581 (1966) R.J.Bullock, N.R.Large - Radiochim.Acta 6, 201 (1966) D.Eccleshall, M.J.L.Yates, J.J.Simpson - N u c l . P h y s . 78, 481 (1966) T.Goworek, Z.Skorzynski, J.Wawryszczuk - A c t a P h y s . P o l o n . 29, 4 0 7 (1966) R . K . J o l l y , C.F.Moore - P h y s . R e v . 145, 918 (1966) G.Kauw - Forschungsber.Landes Nordrhein-Westfalen No.1640 (1966) Z . Z h e l e v , G . M u z i o l - Y a d . F i z . 4, 3 (1966); S o v i e t J . N u c l . P h y s . 4, I (1967) A . B a c k l i n , S . G . M a l m s k o g - A r k . F y s . 34, 531 (1967) P . R . C h r i s t e n s e n , B . H e r s k i n d , R . R . B o r c h e r s , L . W e s t g a a r d - N u c l . P h y s . A102, 481 (1967) V.G.Chumin, Z.Zhelev, K.Y.Gromov, B.Makhmudov - I n t e r n . N u c l . P h y s . C o n f . , G a t l i n b u r g , T e n n . (1966); R . L . B e c k e r , C . D . G o o d m a n , P . H . S t e l s o n , A . Z u c k e r , Eds., A c a d e m i c P r e s s , New Y o r k , p . 9 2 2 (1967) J . E . D r a p e r , R . 0 . M e a d , R . A . W a r n e r - N u c l . P h y s . A95, 209 (1967) N . A . G o l o v k o v , K . Y . G r o m o v , N.A.Lebedev, B . M a k h m u d o v , A . S . R u d n e v , V . G . C h u m i n - I z v . A k a d . N a u k SSSR, S e r . F i z . 31, 1618 (1967); B u l I . A c a d . S c i . U S S R , P h y s . S e r . 31, 1657 (1966) J . C . H i l l - P h y s . R e v . 153, 1312 (1967) D . C . H o f f m a n , O . B . M i c h e l s e n , W . R . D a n i e l s - A r k . F y s . 36, 211 (1967) J.Kormicki, H.Niewodniczanski, Z . S t a c h u r a , K . Z u b e r , A . B u d z i a k - N u c l . P h y s . A I 0 0 , 297 (1967) B.Myslek, Z.Sujkowski, A.Zglinski - Priv.Comm. ( J u n e 1967) J . E . J . O b e r s k i , A . H . W a p s t r a - P h y s i c a 34, 579 (1967) I . A d a m , K . S . T o t h , M . F . R o c h e - N u c l . P h y s . A I 2 I , 289 (1968) Y.Y.Chu, E.M.Franz, G.Friedlander - P h y s . R e v . 175, 1523 (1968) K.A.Keller, H.Munzel - Radiochim.Acta 9, 176 (1968) K.Wilsky, K.Y.Gromov, Z.T.Zhelev, V.V.Kuznetsov, G.Muziol, O.B.Nielsen, O.Skilbreid - Izv.Akad.Nauk SSSR, S e r . F i z . 32, 187 (1968); B u l I . A c a d . S c i . U S S R , P h y s . S e r . 32, 169 (1969) Z.G.Gritchenko, T.P.Makarova, Y.T.Oganesyan, Y.E.Penionzhkevich, A . V . S t e p a n o v - Y a d e r n . F i z . i0, 929 (1969)', S o v i e t J . N u c l . P h y s . I0, 536 (1970) G . J a n s e n , H . M o r i n a g a , C . S i g n o r i n i - N u c l . P h y s . AI2S, 2 4 7 (1969) J.B.Wilhelmy - Thesis, Univ.California (1969); U C R L - 1 8 9 7 8 (1969) - Izv.Akad.Nauk SSSR, S e r . F i z . 34, 4 0 9 R . A r l t , G.Beyer, G . M u s i o l , L . K . P e k e r , G . P f r e p p e r , H . S t r u s n y (1970); B u l l . A c a d . S c i . U S S R , P h y s . S e r . 34, 356 (1971) D.Berenyi, A,Szalay, D.Varga, F.Molnar, J.Uchrin - A c t a P h y s . 28, 431 (1970) Y.Y.Chu, E.M.Franz, G.Friedlander - P h y s . R e v . C1, 1826 (1970) R . E . E p p l e y , M . C . M c H a r r i s , W . H , K e l I y - P h y s . R e v . C2, 1929 (1970); E r r a t u m Priv.Comm. ( M a r c h 1973) G . K a i n d l - Z . P h y s i k 240, I 0 0 (1970) E . N e w m a n , K . S . T o t h , R . L . A u b l e , R.M.Gaedke, M . F . R o c h e , B . H . W i l d e n t h a l - P h y s . R e v . C1, 1118 (1970)
78
NUCLEAR DATA SHEETS
REFERENCES 700sZZ 7OSeZP 71BaZA 71CaXY 71Ep01 71Ho29 71My01 71Tr02 71Wi04 72Ni16 720h08 72Vy08
73Bi06 73Ga01 73MAY0 73Ne01 73Wu03 74Ar17 74Bu31 74ClZX 74Gr29 74Ko29 74No05 74Ro15 74To04 74To07 74Wu02 75Be09 75Bo22 75BuZA 75C101 75Fi02 75Fi04 75Fi05 75Fr18 75Hi03 75K101 75NaZE 75Th09 76AmZW 76Be09
FOR
A
=
145
(CONTINUED)
T h e OSIRIS Collaboration - Proc.lnt.Conf.Prop.Nuclei Far f r o m Region of Beta-Stability, Leysin, Switzerland, Vol.2, p.I093 (1970); C E R N - 7 0 - 3 0 (1970) V.Sergejev, Z.Sujkowski, J.Kownacki, H.Ryde - Ann.Rept., Research Inst.Phys., Stockholm, p.33 (1970) J.B.Ball, R.L.Auble, J.Rapaport - O R N L - 4 6 4 9 , p.17 (1971) Y.Cassagnou, A.Heusler, M . L a m e h i - R a c h t i , C.Levi, W.Mittig, L.Papineau - C E A - N - 1 5 2 2 , p.34 (1971) R.E.Eppley, W.C.McHarris, W.H.Kelly - Phys.Rev. C3, 282 (1971) F.F.Hopkins, G.W.Phillips, J.R.White, C.F.Moore, P.Richard - Phys.Rev. C4, 1927 (1971) B.Myslek, B.Pietrzyk, Z.Sujkowski, J.Szczepankowski - Acta Phys.Pol. B2, 441 (1971) B.L.Tracy, J . C h a u m o n t , R.Klapisch, J.M.Nitschke, A.M.Poskanzer, E.Roeckl, C.Thibault - Phys.Lett. 34B, 277 (1971) B . H . W i l d e n t h a l , E . N e w m a n , R . L . A u b l e - P h y s . R e v . C3, 1199 (1971) D.W.Nix, J.C.McGeorge, R . W . F i n k - Z . P h y s . 256, 131 (1972) A . O h y o s h i , E . O h y o s h i , T . T a m a i , M . S h i n a g a w a - J . I n o r g . N u c l . C h e m . 34, 3293 (1972) T,Vylov, K.Y.Gromov, I.I.Gromova, G.I.Iskhakov, V.V.Kuznetsov, M.Y.Kuznetsova, N.A.Lebedev, M . I . F o m i n y k h - I z v . A k a d . N a u k SSSR, S e r . F i z . 36, 2118 (1972); B u l l . A c a d . S e i . U S S R , P h y s . S e r . 36, 1864 (1973) C . R . B i n g h a m , D.U.O'Kain, K . S . T o t h , R . L . H a h n - P h y s . R e v . C7, 2575 (1973) S.Gales, L.Lessard, J.L.Foster,Jr. - Nucl.Phys. A202, 535 (1973) M.R.Macphail - Thesis, M c M a s t e r Univ. (1973) E . N e w m a n , K.S.Toth, I.R.Williams - Phys.Rev. C7, 290 (1973) K . W u n s c h , H.Gunther, G.Siegert, H.Wollnik - J.Phys.(London) A6, L93 (1973) P.O.Aronsson, G . S k a r n e m a r k , M.Skarestad - J.Inorg.Nucl.Chem. 36, 1689 (1974) T . W . B u r r o w s - Nucl.Data Sheets 12, 203 (1974) R.G.Clark, L.E.Glendenin, W.L.Talbert,Jr. - Proc.Symp.Phys.Chem.Fission, 3rd, Rochester, N.Y. (1973), I n t . A t . E n . A g e n c y , V i e n n a , Vol.2, p.221 (1974) B . G r a p e n g i e s s e r , E . L u n d , G . R u d s t a m - J . I n o r g . N u c l . C h e m . 36, 2409 (1974) J . K o w n a c k i , J . L u d z i e j e w s k i , Z . S u j k o w s k i , H . A r n o l d , H . R y d e - N u c l . P h y s . A236, 125 (1974) G . A . N o r t o n , N . L . G e a r h a r t , H . J . H a u s m a n , J . F . M o r g a n - P h y s . R e v . C9, 1594 (1974) E . R o e c k l , P . F . D i t t n e r , R . K l a p i s c h , C . T h i b a u l t , C . R i g a u d , R . P r i e e l s - N u c l . P h y s . A222, 621 (1974) F.Tolea, K . R . B a k e r , W . D . S c h m i d t - O t t , R . W . F i n k - Z . P h y s . 268, 289 (1974) K.S.Toth, C.R.Bingham, W . - D . S c h m i d t - O t t - P h y s . R e v . C10, 2550 (1974) K . W u n s c h , H . W o l l n i k , G . S i e g e r t - P h y s . R e v . C10, 2523 (1974) M . J . B e c h a r a , 0 . D i e t z s c h - Z . N a t u r f o r s c h . 30a, 356 (1975) W . B o o t h , S . W i l s o n - N u c l . P h y s . A247, 126 (1975) M.Budzynski, V.Zhuk, R.Ion-Mikhai, T.M.Muminov, M.Cubotovich, I.Kholbaev, Y a . V a v r y s h c h u k - P r o g r a m and Theses, Proc.25th Ann.Conf.Nucl,Spectrosc.Struct.At.Nuclei, L e n i n g r a d , p.103 (1975) D.Clement, E.J.Kanellopoulos, K.Wildermuth - P h y s . L e t t . 55B, 19 (1975) R . B . F i r e s t o n e , R . A . W a r n e r , W . C . M c H a r r i s , W.H.Kelly - P h y s . R e v . C11, 1864 (1975) R . B . F i r e s t o n e , R . A . W a r n e r , W . C . M c H a r r i s , W.H.Kelly - P h y s . R e v . L e t t . 35, 401 (1975) R . B . F i r e s t o n e , R . A . W a r n e r , W . C . M c H a r r i s , W.H.Kelly - P h y s . R e v . L e t t , 35, 713 (1975) W . D . F r o m m , L . F u n k e , K . D . S c h i l l i n g - P h y s . S c r . 12, 91 (1975) D.L.Hillis, C . R . B i n g h a m , D . A . M c C l u r e , N . S . K e n d r i c k , J r . , J.C.HiI1, S . R a m a n , J.B.Ball, J . A . H a r v e y P h y s . R e v . C12, 260 (1975) P . K l e i n h e i n z , M.R.Maier, R . M . D i a m o n d , F . S . S t e p h e n s , R . K . S h e l i n e - P h y s . L e t t . 53B, 4 4 2 (1975) M.R.Najam, A.F.M.Ishaq, M . A n w a r - u l - I s l a m , A.M.Khan, J.A.Merza - Proc.Int.Symp.Neutron Capture Gamma-Ray S p e c t r o s c o p y a n d R e l a t e d T o p i c s , 2 n d , P e t t e n , p.566 (1975) S . T . T h o r n t o n , J . L . C . F o r d , J r . , E . F r i e d l a n d , C . A . W i e d n e r , M . G o l d s c h m i d t - P h y s . R e v . C12, 877 (1975) S.Amiel, G.Engler, Y.Nir-E1, M.Shmid - Proc.lnt.Conf.Nuclei Far from Stability, 3rd, Cargese, F r a n c e , R . K l a p i s c h , Ed., C E R N - 7 6 - 1 3 , p.501 (1976) R . B . B e g z h a n o v , K . S . A z i m o v , S , K . S a l i m o v , K . T . T e s h a b a e v - Y a d . F i z . 23, 8 (1976); S o v . J . N u c l . P h y s . 23, 3 (1976)
76BjZY 76Fu06 76Ho17 76Ja01 76LoZT
76Sh05 77BaZP 77Bj02 77C102
J.Bjerregaard, C.Ellegaard, P.Kleinheinz, P.Knudson, J.R.Lien, G.Lovhoiden, J.Rekstad K F A - I K P - 1 0 / 7 6 , p.60 (1976) G.H,Fuller - J.Phys.Chem.Ref.Data 5, 835 (1976) G . E . H o l l a n d - N u c l . D a t a S h e e t s 19, 337 (1976) S . V . J a c k s o n , R . A . M e y e r - P h y s . R e v . C13, 339 (1976) bOHENGRIN-Collaboration, R.Stippler, F.Munnich, H.Schrader, J.P.Bocquet, R.Decker, B.Pfeiffer, H.Wollnit, E.Monnand, F.Schussler - Proc.Int.Conf.on Nuclei Far from Stability, 3rd, Cargese, p.109; C E R N - 7 6 - 1 3 (1976) T . S h i b a t a , Y.Nagai, M . F u j i w a r a , H . E j i r i , N . N a k a n i s h i , S . T a k e d a - N u c l . P h y s . A257, 303 (1976) N.B.Badalov, Y a . V a v r y s h u k , T s . V y l o v , I . I . G r o m o v a , Z h . Z h e l e v , N.A.Lebedev, S h . O m a n o v , Y a . S a z h i n s k i Program and Theses 27th Ann'C°nf'Nucl'Spectr°sc'Struct'At'Nuclei' T a s h k e n t , p.68 (1977) T . B j o r n s t a d , E.Kvale, G . S k a r n e m a r k , P . O . A r o n s s o n , T h e S1SAK C o l l a b o r a t i o n - J . I n o r g . N u c l . C h e m . 39, 1929 (1977) H . C l e m e n t , G . G r a w , R . Z e n g e r , G . Z o l l n e r - N u c l . P h y s . A285, 109 (1977)
79
NUCLEAR
REFERENCES 77Ha04 77Hell 77Ho18 77Mc09 77Na07 77Re05 77Re06 77Ro29 77Se04 77Sk02 78Cr03 78LeZA 78Pf02 78SaZP 78ScYY 78St03 78VaZS 78VyZX 78WaZM 78Wo09 79Bo26 79Ek02 79En02 79Ha48 79KI02 79Ri09 79RuZR 79Ta17 79To04 8OAdZW 8OBa01 80Gell 80HAZY
80Ho33 8OJal5 80K107 80Ko16 80Lo06 80LuO4 80Ra01 8OReZR 80Stl0 8OYaO7 81A123
81BeYJ
81CI01
FOR
DATA
A
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SHEETS
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(CONTINUED)
Z . H a r a t y m , J . K o w n a c k i , J . L u d z i e j e w s k i , Z . S u j k o w s k i , L.-E.De Geer, A . K e r e k , H.Ryde - N u c l . P h y s . A276, 299 (1977) A . H e u s l e r , M . L a r n e h i - R a e h t i , C.Levi, W.Mittig, L . P a p i n e a u - N u c l . P h y s . A283, 331 (1977) P . H o r n s h o j , H . L . N i e l s e n , N . R u d - P h y s . R e v . L e t t . 39, 537 (1977) D.A.McClure, S . R a m a n , G . G . S l a u g h t e r - P h y s . R e v . C16, 1278 (1977) Y.Nagai, T . S h i b a t a , S . N a k a y a m a , H . E j i r i - N u c l . P h y s . A282, 29 (1977) P . L . R e e d e r , J . F . W r i g h t , L . J . A l q u i s t - P h y s . R e v . C15, 2108 (1977) P . L . R e e d e r , J . F . W r i g h t , L . J . A l q u i s t - P h y s . R e v . C15, 2098 (1977) Z.Roller-lvanovic, A . L j u b i c i c , V . P a a r , B.A.Logan - P h y s . R e v . C16, 2376 (1977) M . S e k i g u c h i , Y . S h i d a , F.Soga, T , H a t t o r i , Y . H i r a o , M . S a k a i - P h y s . R e v , L e t t . 38, 1015 (1977) G.Skarnemark, P.O.Aronsson, T.Bjornstad, E.Kvale, N.Kaffrell, E.Stender, N.Trautmann J . I n o r g . N u c l . C h e m . 39, 1487 (1977) J . C r a n c o n , C . R i s t o r i , H . O h m , W , R u d o l p h , K . - L . K r a t z , M . A s g h a r - Z . P h y s . A287, 45 (1978) C.M.Lederer, V.S.Shirley, E.Browne, J.M.Dairiki, R.E.Doebler, A.A.Shihab-Eldin, L,J.Jardine, J . K . T u l i , A . B . B u y r n - T a b l e o f I s o t o p e s , 7 t h Ed., J o h n W i l e y a n d S o n s , Inc., New Y o r k (1978) B.Pfeiffer, F.Schussler, J.Blachot, S.J.Feenstra, J.van Klinken, H.Lawin, E.Monnand, G.Sadler, H.Wollnik, K . D . W u n s c h , T h e JOSEF-, LOHENGRIN-, a n d O S T I S - C o l l a b o r a t i o n - Z . P h y s . A287, 191 (1978) A . S a h a , R . H . S i e m s s e n , J . W . S m i t s , J . v a n P o p t a - KVI A n n . R e p t . 1 9 7 7 , p,14 (1978) F . S c h u s s l e r , E . M o n n a n d , J . A . P i n s t o n , S . J . F e e n s t r a , J . V a n K l i n k e n - C E A - N - 2 0 7 4 , p.25 (1978) R.Stippler, F.Munnich, H.Schrader, K.Hawerkamp, R.Decker, B.Pfeiffer, H.Wollnik, E.Monnand, F . S c h u s s l e r - Z . P h y s . A285, 287 (1978) J . v a n d e r P l i c h t , M . N . H a r a k e h , T . I s h i m a t s u , F . E . B e r t r a n d , R . H . S i e m s s e n - KVI A n n . R e p t . , 1977, p.17 (1978) T s . V y l o v - J I N R - P 6 - 1 1 8 4 7 (1978) D.D.Warner, W.F.Davidson, W.Gelletly - C o n t r i b . I n t . S y m p . N e u t r o n Capture Gamma-Ray Spectrosc.and R e l a t e d T o p i c s , 3 r d , U p t o n , N.Y., No.84 (1978) F . K . W o h n , K . D . W u n s c h , H . W o l l n i k , R . D e c k e r , G . J u n g , E.Koglin, G . S i e g e r t - P h y s . R e v . C17, 2185 (1978) H.G.Borner, W.F.Davidson, J.Almeida, J.Blachot, J.A.Pinston, P.H.M.Van Assche Nucl.Instrum.Methods 164, 579 (1979) C . E k s t r o m , L . R o b e r t s s o n , G . W a n n b e r g , J . H e i n e m e i e r - P h y s . S e r . 19, 516 (1979) G . E n g l e r , Y . N i r - E 1 , M . S h m i d , S . A m i e l - P h y s . R e v . C19, 1948 (1979) D . R . H a e n n i , H . B e u s c h e r , R.M.Lieder, M . M u l l e r - V e g g i a n , A . N e s k a k i s , C . M a y e r - B o r i c k e - N u c l . P h y s . A331, 141 (1979) W . K l i n g e r , R . B o h m , W.Engel, W . S a n d n e r , R . S e e b o c k , W . W i t t h u h n - Z . P h y s . A290, 227 (1979) C . R i s t o r i , J . C r a n c o n , K . D . W u n s c h , G . J u n g , R . D e c k e r , K . - L . K r a t z - Z . P h y s . A290, 311 (1979) G . R u d s t a m - P r i v . C o m m . (1979); See a l s o BNL-51778, p.337 (1983) H . W . T a y l o r , B . S i n g h - J . P h y s . ( L o n d o n ) G5, 1445 (1979) A . P . T o m o z o v , G . B , A n d r e e v , V . A . L u t s i k , A . V . S h c h a g i n - Y a d . F i z . 29, 852 (1979); S o v . J . N u c l . P h y s . 29, 438 (1979) I.Adam, Zh.T.Zhelev, B.Kratsik, A.Kugler Program and Theses, Proc.30th Ann.Conf.Nucl.Spectrosc.Struct.At.Nuclei, L e n i n g a r d , p.98 (1980) D.Bazzacco, A . M . I . H a q u e , K.0.Zell, P . v o n B r e n t a n o , C . P r o t o p - P h y s . R e v . C21, 222 (1980) R.J.Gehrke, J.D.Baker - Int.J.Appl.Radiat.lsotop. 31, 509 (1980) D . R . H a e n n i , H . B e u s c h e r , R.M.Lieder, M . M u l l e r - V e g g i a n , A . N e s k a k i s , C,M a y e r - B o r e c k e - Proc.6th E u r o p e a n P h y s . S o c . N u c l i . D i v . C o n f . o n S t r u c t u r e of M e d i u m Hea v y Nuclei, R h o d e s , Greece, 1979, p.300 (1980) J . J . H o g a n - R a d i o c h i m . A c t a 27, 73 (1980) M . J a s k o l a - A c t s P h y s . P o l . BI1, 393 (1980) W . K l i n g e r , R . B o h m , W . S a n d n e r , W . W i t t h u h n - N u c l . P h y s . A350, 61 (1980) M.Kortelahti, M.Piiparinen, A.Pakkanen, T.Komppa, R.Komu, S.Brant, I.J.Udovicic, V.Paar N u c l . P h y s . A342, 421 (1980) G.Lovhoiden, J.R.Lien, S.E1-Kazzaz, J.Rekstad, C.Ellegaard, J.H.Bjerregaard, P.Knudsen, P . K l e i n h e i n z - N u c l . P h y s . A339, 477 (1980) E . L u n d , P . H o f f , K . A l e k l e t t , O . G l o m s e t , G . R u d s t a m - Z . P h y s . A294, 233 (1980) D . A . R a k e l , R . K a c z a r o w s k i , E . G . F u n k , J . W . M i h e l i c h - P h y s . R e v . C21, 595 (1980) P . L , R e e d e r , R . A . W a r n e r - P r i v . C o m m . (1980); See a l s o BNL-51778, p.337 (1983) O . S t r a u m e , G . L o v h o i d e n , D . G . B u r k e - Z . P h y s . A295, 259 (1980) H . Y a m a m o t o , Y . I k e d a , K . K a w a d e , T . K a t o h , T . N a g a h a r a - J . l n o r g . N u c l . C h e m . 42, 1539 (1980) G . D . A l k h a z o v , E . E . B e r l o v i c h , K.A.Mezilev, Y u . N . N o v i k o v , V . N . P a n t e l e e v , A . G . P o l y a k o v , V . P . A f a n a s e v , N.Ganbaatar, K.Ya.Gromov, V.G.Kalinnikov, Ya.Kormitski, A.Lyatushinski, A.Potempa, F.Tarkani, Yu.V.Yushkevich - I z v . A k a d . N a u k SSSR, S e r . F i z . 45, 1827 (1981) R.B,Begzhanov, K.Sh.Azimov, R.D.Magrupov, Sh.A.Mirakhmedov, A.Mukhammadiev, M.Narzikulov, S.Kh.Salimov - Program and Theses, Proc.31st Ann.Conf.Nucl.Spectrosc.Struct.At.Nuclei, Samarkand, p . 6 5 4 (1981) P.D,Clark, T.R,Ophel, J.Nurzynski, C.H.Atwood, D.F.Hebbard - Nucl.Phys. A352, 267 (1981)
80
NUCLEAR
REFERENCES 81De35 81EbOl 8tEnO5 81Rel0 81Th06
81VaZJ 82A107
82Ar13 82ChZV 82De26 82DeZX 82FiO1 82Ga12 82No08 83Pa04 82P824 82Ra13 83Sc35 82So02 82StZU 83Ba10 83BeZF 83DeZI 83Go15 83BaZC 83Kr19 83Mu12 83Sc38 83Va02 83VolO 84Ce01 84Dr03 84Ga16 84Ma39 84Ra03 84RuZW 85Wa02 86RoZT 86RoZU
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DATA
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R . D e c k e r , K . D . W u n s c h , H . W o l l n i k , G . J u n g , J . M u n z e l , O . S i e g e r t , E . K o g l i n - Z . P h y s . A3Ol, 165 (1981) l . D . U . E b o n g , R.R.Roy - Z . P h y s . A299, 209 (1981) G . E n g l e r , E . N e e m a n - N u c l . P h y s . A367, 29 (1981) J , R e k s t a d , I.Espe, G . L o v h o i d e n , J . R . L i e n , J . C . W a d d i n g t o n , C . G a a r d e , J . S . L a r s e n , S . v a n d e r W e r f N u c l . P h y s . A369, 453 (1981) C.Thibault, F.Touchard, S.Buttgenbach, R . K l a p i s c h , M,De S a i n t Simon, H.T.Duong, P.Jacquinot, P . J u n c a r , S . L i b e r m a n , P . P i l l e t , J . P i n a r d , J . L . V i a l l e , A . P e s n e l l e , T h e ISOLDE C o l l a b o r a t i o n , G . H u b e r - N u c l . P h y s . A367, 1 (1981) A . M . v a n d e n Berg, M . N . H a r a k e h , Y . I w a s a k i , R . H . S i e m s s e n , S . Y . v a n d e r W e r f - KVI A n n . R e p t . , 1980, p.25 (1981) G . D . 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