A=67

NUCLEAR DATA SHEETS

A=67 Ni, Cu, Zn, Ga, Ge

Compilers: S. C. Pancholi, W. B. Ewbank I s s u e Date: October 1968

Replacement for pages 59-1-9 through 59-1-10, 58-1-35, 59-1-11 through 59-1-15, and 6-2,3-112 of Nuclear Data Sheets

Symbols and abbreviations are explained on the inside back cover. Conventions, policies, and b a s e s for spin-parity a s s i g n m e n t s are described in the front of the i s s u e . P l e a s e refer to the Nuclear Data Sheets by using the compiler's name and the number at the bottom of the page in the following way: A. Artna, Nuclear Data Sheets for A = 79, Nuclear Data B1-4-52 (1966).

N u c l e a r Data

B2-6-71

67

A = 6 7 Drawing

Part t

NUCLEAR DATA SHEETS

Eo (keY) 30.8 .0.n = 3 ?

PH,47

243 22.7 [fr-~

9A05? #,o...,o,,, .......... ~;~.

66Cu+n

:

66Ni+n

.tn=~?

-,,,,,~

° o , , o o o , , , , o ,8.52 , o , ,~,

66Ni+p

Isobaric Analog (67Cu g.s)

•'''''''''''"*""

4/2+

In ...............

\

%

P9,28 8.899s

x "°"""'"'".,,,.,,,.,,,,,,,,

CO"CO"¢0"¢0"49"

Z0484 $

'10.43

0,323

IT1.1. ............................. N b 5,04

Y4.25

b 4,77 b4.66 b 4.54 b4.42

T 67 • 2 8 N 139

45.3

t 50s

~P

~457

Y3.57

B

67

3398

.~ z3.43 3.09 z3.03 / Z3.o0 z2.94§ 2 z2.82

bK822 b3.770 b 3.67 b 3.654

'/ - - ~

b3.557 b3.538 b3.480

b3395 b~295

0

z2.69 zY2.64 2 z23~

4.43

~b3.233

z 2.:~. z 2.28

bPq2.849 lb c2.797

2.46

bP2.648 / b2.609

zt95

2.470

4

4.840

3

bc2.430 /'bP2.407 bq 2.273 fbdp2.246 bpq2.472

4.89 jkYZ4.68 " ~ jkyz£64

(2.3 24~,4~)

2.726

4

O"

4.450

4.082

4

5.2 (4%,~)

kz£47 --J-'~<==YZ4.t3

~

@

bq 4.842 /bN.808 - - &

~828

t ~

bdpq4.676 • b4.642 bcq t542 b4.444

o ,

Y0*74 bcpq 4.442

4

2

3

0*3330

4

0.4665

bdpq 0.978 2X 3/2-0 bcpq 0.81580~,~~4f 6"~ (0,442 o,26~¢,5.6) 3.~GQ36

O" C,"O"O"

78.4 h T

D

-I-

4,4 50~,5,6

"~q(3/2F

P

jkYZo

) ==> bcpq0*6O2

(9/2)+

--E_ZCu_"y-~6~.7 h

4

C

- bcdipqo.5956/(0.606 2f.3%~,5.2}

29

:38

"~3/2-

q.O00343

(0.483 0,9Yo,~.gJ ~

0,57'6 5 0.395 f

bdh iAPq0*1846//( 0.8| 5 2f..T~,5,S] • ~. . . . . r 4 0 4 n s

(Sfx,f.3J'~ 3/2-

0.484 (28~,5,8 4 / 2 ) ~ - ~ 0 3 7 7 ?0 ~:,6.3

67 Stable 3oZn37

Nuclear Data B2-6-72

bdpq0 d-~'a H-s ~ (4.000

5~,6.3J

1

NUCLEAR DATA SHEETS

.........

............. ,~,9,8 ........

66Ge+n

Coulomb excitation with: h heavy ions A > 4 ~. light ions A < 4 b (d,p) k (p,a) c (d~d') o (3He,d} d (d,t} p (3He,a) e (d.n} q (p,d} g (p,n),(p,n7.} s (7",7) i (P,P'7} y (a,p} j (n,d} z (t,p} § Doublet & Unresolved group of levels 7" placed twice 1" Photons per ~00 n-captures in 66Zn B,C,D,F Comments - ~ coincidences Transitions per ~00 decoys of 67Ni

X i ,11111

Drawing t, Part 2 A =67

,H.2233 ............................

a~;;."; n'"

........................

~z'2;'~"'"

o.o ,,... ,,o.,,,.,6.0~ ,,..5 66Go +p

5.2653~s

6?Cu 67Go 6?Ge 7"'s omitted

~ /

2

i i

S 3.398/(

67,

~9m T - -

32Ge35

1.0:~ ~ 0.¢~', ~, 5.7 )

3.~S7/(0.~5

0,o002"~,~+, ,~o.2~', ,,.-~5,6 )

67

e 2 , 7 2 6 / { 0,68 0 . 0 8 ~ , ~ + 0 . 2 F ~ , 5 . 7 ]

e°2.(70/(I.24

4.6%,~ +, 2,0%~,5,4 )

4.435

/ I{

ets~° ~

"~-"% °'°" °"

'~' . . . .

(~.60 ~i.4~,B ~,2 . g ~ ' , 5.2)

/( ~

~-

O'O"

~oeo, / eg°o.e2e'p/

{2.58

z r ~ ; B ~, o, qz~,~.;" )

I J

lI

j;---

i

.

egOn~6~. / 3.24 ( 5 o . 8 ~ , 8 +, ¢.¢ ~ ' , 5,9) v, w w_<0.22n s ego

67

3~Ga36

0

78.4 h

+.

__3___

Nuclear Data B2-6-73

NUCLEAR DATA SHEETS

A=67

Compiler~ Analysis, Sheet-1

Comments

B. Decay

Scheme

Comments

of 50-s 67Ni

E. Conversion

The decay scheme of 67Ni has been taken from 65Me06. Absolute normalization was obtained by adopting the measured intensity of the g.s. ~-branoh and then requiring the sum of ~- and T-transitions to the 67Cu g.s. to be 100%. No correction was made for internal conversion of the T-transitions. The intensities of B-transitions to higher levels in 67Cu were calculated from the V-intensity balance at each level. These intensities are in fair agreement with the measured ~-group intensities given by 65Me06.

C. Decay

67 m

Scheme

Coefficients

Experiment

D. Decay Scheme of 67Ga The decay scheme has been taken mainly from 53M52. An absolute normalization for the decay scheme was obtained by assuming 5% direct capture to the 67Zn g.s. (so that log ff = 6.3, in agreement with the 67Cu ~67Zn decay) and then requiring 100% total feeding to the 67Zn g.s. intensities of all capture branches to higher levels were calculated from the v-intensity imbalance.

of the O.09331T(67Zn)

The 0.09331T in 67Zn is required to be pure E2 because it connects levels with J~= I/2- and 5/2-. However, the conversion data would support a mixed MI+E2 assignment from comparison with theoretical values obtained by interpolation from Rose's tables of conversion coefficients. (The calculations by Sliv and Band do not extend as low as Z ~30.) More recent calculations by Hager and Seltzer [Nuclear Data A4, 1 (1968)] and by Bhalla (66Bh07) provide much better agreement between theory and experiment. The following table compares experimental data for the 0.09331Twith predictions from th~ calculations by Hager and Seltzer and by Rose:

of 67Cu

The decay scheme of 67Cu was constructed by requiring that the sum of intensities 0f~and T-transitions to the 67Ni g.s. be 100%. For the g.s. ~-branch, the intensity at 53EII was adopted. Relative intensities of the 0.09126, 0.2089, and 0.3936T's were calculated with the help of branching ratios measured in 67Ga decay. The intensities of all ~-transitions to higher levels in 67Zn were calculated from T-intensity imbalance at each level. Agreement with the!measured ~-intensities of 53EII is only fair.

continued

aK 0.63 K/L 1 10.5 10 L1/L23 2.61 7

Theory Rose Hager-Seltzer E2 M1 E2 M1 0.75 13.0 2.44

0.066 12.2 17.1

0.76 11.2 2.60

0.067 9.8 18.2

F. Decay Scheme of 67Ge The decay scheme is taken mainly from 68Ba15. Both of the 0.1665 T's were considered to be pure MI (a =0.0181 from theory). Direct feeding to the 67Ga g.s. was ignored. Absolute normalization was obtained by requiring the sum of intensities of all T's feeding the g.s. to be 100%. The intensity of each e+~ + branch was obtained from T-intensity imbalance at each level. Theoretical values of fe/f+ lead to a predicted total ~+-intensity of 105t = 92.9% compared to the measured value o f 100t. This agreement s u p p o r t s the assumption s t a t e d above t h a t t h e r e i s no d i r e c t decay to the g , s . of67Ga" Since the s h e l l model p r e d i c t s J~=1/2-,3/2-,5/2- f o r the 67Ge g . s . , i t i s not c l e a r why t h e r e should be no d i r e c t feeding to the 67Ga g . s .

N u c l e a r Data B2-6-74

NUCLEAR DATA SHEETS Compilers' Analysis, Sheet-2

A:67

Spin Assignments

6729Cu38 Ground State J = (3/2)

Analogy

with measured

J = 3/2

for 63'65Cu 77=

- -

~p =I from n,d(~)

30Zn3767 Ground State J =

5/2

77=

--

0.09331 Level J n = 1/2-

0.1846 Level J~ = 3/2-

O. 3936 Level J = 3/2

0.602 Level j~= (9/2) +

Measured spin (65FuCo) 4n =3 from d,p(8)

=1 from d,p(G), p,d(8) n J-dependence of d,p(8) shows J = 1/2

~n =1 from d,p(8), p,d(~), .'. J~= 1/2-, 3/20.1846X i s MI+E2, .'. J # i / 2

67

(0.2090)/) (0. 1846~)(8) ~n = I from d,p(8), p,d(8)

~n =4 from d,p(8), .'. J~=7/2 Shell model state g9/2

+, 9/2 +

0.8880 Level J= (i/2, 3/27

77= (-7

67 6round State 31Ga36 J = 3/2 7T=

--

(0.49433/) (0. 3002)/)(8) c o n s i s t e n t with J = i/2, 3/2, 5/2 Primary capture T-decay from i/2 + state rules out J~= 5/20.4943~ is probably MI+E2 from a K

Measured spin (65FuCo) ~p =1 from d,n(~), 3He, d(8) Log f t ' s show t r a n s i t i o n s to 1/2-, 3/2- l e v e l s in aTzn are allowed

Nuclear Data B2-6-75

NUCLEAR DATA SHEETS

67. 28NI59-1 G r o u n d - S t a t e Decay

T~

Q- = 4 . 1 3

50 s 3

65Me06

G r o u n d - S t a t e Decay.

~7

77

Pl

67

=2.0

65Me06

(=0.897)(0.90, I. 267)

scin

65Me06

scin

65Me06

Sum Energy

Interpreted Coincidences

1.80 10 2.16 10

(0. 8 9 7 ) ( 0 . 9 0 7 ) (0.907)(1.267)

(24%

2.3)

Prom level scheme

fl~

(4~

3.2)

Prom l e v e l scheme

~2+3 20~o

3.2 2

s c i n /3(0.90)/)

t34

4.1 3

scin

A50~

=4.1 3 =4.1 3

Input Output

65Me06

Evidence f o r N u c l i d i c Assignment 7°Zn(14.8-MeV n , a ) p 6 1 . 5 - h 67Cu

65Me06

68Mass 68Mass

7(~7Cu)

72

scin

scin ~(1.267) 65Me06 From l e v e l scheme

~2

71

( ~ 2 . 0 ~ ) ( 0 . 8 9 , 1.26)/)

Ey~ 30~o 22%

48t 0.89

100t

0.90 4

77,~77 65Me06

77, ~77

65Me06

scin

65Me06

scin

65Me06

71 +2 148t

-

73 44t

1.26 /4

continued

t R e l a t i v e photon i n t e n s i t y normalized to I(0.90T) =lOOt

N u c l e a r Data B2-6-76

65Me06 65Me06

NUCLEAR DATA SHEETS

67

zgCus81

g r o u n d - S t a t e Decay

Q-= 0.576 5

50K05 53Ell 56R45 61Wi19 68Re04

58.6 h 5 61 t 61.6 3 61.54 15 61.88 14 A61.7 h

_

6 r o u n d - S t a t e Decay

7(67Zn) Y3

continued a=0.01 K / L = 8 s ce, s c i n 52S66 o. 191 0.182 a=0.012 2 s l ce, pe 53Ell st 0.190 53N05 scin 100t 0.186 4 scin 54B97 .lOOt scin 57B59 Aloot MI+E2,a = 0.0193 See 67Ga-1 A0.1846

%

31

(0.9%

32

67% 45%

0.183) 0.38 0.395 0.37 6

s sl

52S66 53E11

37

53N05

57B59

(51%)

From level scheme

32 0.484 8

sl

53EII

37

53N05

MI(+E2?)

See 67Ga-2

O.2t

75

A0.395

0.45

scin 77

0.206

From level scheme

A0.2089

35%

continued

w 0.304 1.4t 0,296 A0.3002

scin scin

53N05 57B59

See 67Ga-2

MI(+E2?)

A0:484 (28%)

~4

33% 20% A20%

From level scheme 0.57 0.577 A0.577 5 a,

s sl

716

52S66 53EII

w 0.393 w 0.388 A0.3936 0.4~ b

scin scin

MI(+E2?)

53N05 57B59

See 67Ga-2

%Belatlve photon intensity normalized to I~](D. 18._4690 = i00~ . On the level s cheme 1007 =44

Q-=E(34) =0.577 5a

Input Output

=io. 576 5

7(67Zn) 71

0.09126 13t b

72

MI+E2,a= 0.082

68Mass 68Mass

0.09331

E2,a = 0 . 8 5

(0.37/~(0.197)

TT

(O. 2067)(0.090, 0. 1827)

3T(t)

(O. 453) (0.097)§

GM'scin

53N05

See 67Ga-1

_

43t

~7

See 67Ga-1

scin'scin

GM-sein

57B59

53N05

From 1(71) and I (71+2) §Coincidence resolving time 2~ = 1 2 ~s

71+2 st

28~ A56t

0.096 0.092 0.094 0.098 _

a = 0.09 K/L = 7 a=0.5

s ce, s c i n s l ce, pe scin

scin scin

52S66 53Ell 53N05 54B97 57B59

7/7(t)

(O. 2967)(0.0927) is delayed

scin'scin

57B59

auncertainty assigned by the compilers bRelative photon intensity calculated from other relative intensities given here and from the branching ratios deduced from 67Ga decay

AAdopted v a l u e

N u c l e a r Data

B2-6-77

67 /

NUCLEAR DATA SHEETS

67 29Cu58 - 2 Reaction Data

Reaction Data continued

Pickup Reactions

S t r i p p i n g Reactions 64Ni(a,p)

Ea =14 jt

E(level) g.s. 0.71 1.15 1.67" X2. O1 ? x2.40 ? 2.62 x3.20 ? x3.40 ? 3.57 4.25

6SZn (n, d)

65Sa21

1/2 5/2

65Cu(t,p)

Et = 12

E(level)

imax(~)§

g.s. 1.13 1.17 1.64 1.68 1.95 2.28 2.51 2.64 2.69

41000 720 95 150 740 1970

2 2 2 2 2 2 2 2

1540 270 250

2

3800

2.82 2 2.93 ) 2.94 Unresolved

§Relative

g.s. Xl.05 ? lO 1.67 ? 10

1

J~

67Ch02

DWBA

65No05

S

3 / 2 - 1,91

2 2 2 2

intensity

360

~p

g.s. 1.12 4 1.67 4 2.34 ~

of the maximum

J~

1 (1) (3) (3)

3/2(1/2-) (7/2-) (7/2-)

66Bj02 j~r$ 3/2(5/2-) 1/2(5/2-) (7/2-) 3/2-

SScu(t,p) g.s.

Q =7.716 25 =7.688 7

Output

66Bj02 68Mass

(5/2-) + 1/2-,5/2-,7/2-

3/21/2-,5/2-,7/2-

Added i n Proof: Stripping Reactions

64Ni(a,p) 180 550 1130 80 ~ 600*

spin assignments

Ep = 17.5

E(level)

1/2-,5/2-,7/23/2-

in each

proYon angular distribution STentative

~p

7°Zn(p,a)

67

3.00 3.03 3.09 3.13 = 4.31*

E(level)

DWBA

(5/2+7/2) or (5/2+3/2)

*Probably a doublet ~ I f I (135 °) is p r o p o r t i o n a l to 2J+l; see 65Sa20 P

/

En = 14.1

made by authors

on

E(level)

J§

g.s. 1.13" 6

3/21/25/2-

1.62 6 2.50 6

5/29/2 +

68Se03

*Probably a doublet 9Spin assignments based on s i m i l a r i t y between the angular d i s t r i b u t i o n s and those leading to l e v e l s of known s p i n in 63'65Cu

the basis of close correspondence with angular distributions from 63Cu(t,p) to known levels in 65Cu &Energy and i n t e n s i t y u n c e r t a i n because of a large background

XNot

N u c l e a r Data

Ea = 1 9 - 20

shown on level scheme

B2-6-78

NUCLEAR DATA SHEETS

67

3oZn37-i

Ground S t a t e

J Q

5/2 +0.8757 +0.17

65FuCo I 65FuCo 65FuCo

R e a c t i o n Data

Abundance

4.11% 59Full

I

Resonances Resonance parameters adopted by Brookhaven Sigma Center, February 1966. Complete d a t a with r e f e r e n c e s can be found in Yol. I I h of t h e Second Supplement to BNL=325. 66Zn(n) E0 (keY)

9.3-ps,

JV

%

Fy(eV)

V ~ (eV)

0.5 2 -

0.78 0.89 0.86 4.3 1.7

Measured

0.09331-Me¥ Level

1/2-

See Spin Assignments

8.5 ~s 9.5 t0 9.3 2 8.8 10 9.4 3 10.8 A9.3 /~s

67Ga decay; T e e ( t ) 67Ga decay; 7 ~ ( t ) 67Ga decay; ~(t) res fluorescence res fluorescence 66Zn(d,p); d,~(t)

0.323 10.43 15.3 21.32 22.7 24.3 30.8

53K17 53M52 55R34 56V03 57B139 65Mc03

1 2 3 8 ~ t 2

-

-

T, C 28

T

33 32 13

T T T

5

T

T

T = Transmission C = Capture

67 I Capture ~ ' s 66Zn(n,~)

1.01-ns,

JV

The compilation of Bartholomew, Groshev, et al. lists T-rays observed following n-capture in natural zinc and enriched 66Zn. The following table includes only those T's assigned by 67BaGr to the 66Zn(n,T) reaction

0.1846-MeV Level

3/2-

See Spin Assignments 17 9.4~

tz

+0.38 12

676a decay;~yT(~,H)

68Li02

%

1.00 ns t0 1.01 5 0.99 15 A1. O1 ns

67Zn(a,a'7);a,7(t)

61Ho5 68Li02 67Zn-3

67Ga decay; 7 7 ( t ) Coul. Excit.

67BaGr

_E7 6.955 6.865 1.8~ 6.658 6.165 1.3~ 5.906* x5.559

5 5 5 8 6

*Multiple peak SPhotons per 100 n - c a p t u r e s in 66Zn

AAdopt ed value XNot shown on level scheme

N u c l e a r Data B2-6-79

NUCLEAR DATA SHEETS 67

3oZn37-2 R e a c t i o n Data

Stripping Reactions s

E = 15

E(level) 0 0,09 0.18 0.39 0.60 O. 74

67

DWBA

66Zn(d,p) 63Li06

Gmax ~n ( m b / s r ) ( 2 J + l ) S 3 1 3? 1 4

1.15 4.82 0.23 6.16 2.34

1.82 0.68 0.36 0.81 0.82

s E =6.5 E(level) ±30 key

PWBA

65Bo36

CTmax ( 2 J + l ) x ~n (mb/sr) C2~ 2

0 0.07

1

2.50

0.0083

0.39 0.60

1 4

2.45 0.92

0.0078 0.0424

s

E = 10

DWBA

E(level) ±10 keV

~n

ja

0 0.093 0.184 0.390 0.602

3 1 1 1 4

1/2 3/2 3/2

Adopted Values

67Vo05

°'max (mb/sr) (2J+I)S~ 0.56 3.8 0.29 3.7 1.1

1.8 1.10 0.08 1.03 8.4

E(level)

J~ or ~n

0 5/20.09331 1 / 2 0.1846 3/20.3936 3/20.602 (9/2) +

Isotropic distribution

0.888

0.86

1 4

0.42 0.45

0.051 1.57

0.98 1.14 1.44 1.497

2 1 1 1

6.65 3.25 0.73 0.62

1.53 0.42 0.08 0.07

0.98 1.14 1.44

2 1 0

2.98 1.32 0.76

0.0190 0.0038 0.0007

1.69

0

3.74

0.19

1.69

0

3.38

0.0034

1.817

0

1.74

0.086

1.83 2.147

2.28

2

2.28

0.43

2.28

2? 0.68 0.0048

2.42 2.60 2.67 2.81

0 0 O? 2

3.98 0.60 0.31 1.73

0.21 0.029 0.02 0.34

2.44 2.61

0

2.81 3.05

2

1.30

0.0085

O?

2.73

0.14

3.31 3.41 S

O? 0 2

1.26

3.39

0.0021 0.0025 0.0101

3.55

0

0.62

3.58 ~

0 2

2.66

0.0032

3.26

12.1

[ l

3.86 ( 3.85

continued

0

8.36

0.46

4.06

0

4.62

0.27

4.30

2

7.24

0.76

4.01 4.10 4.31 4.42 4.51 4.66 4.77 5.01 5.15 5.34

0.0076 0.0260

O? 2

2.33

0.0124

2 2

3.38 2.60

0.0170 0.0123

= O. O1

0.978 2 3.7 1.142 1 1/2 1.5 1.444 1 3/2 0.26 1.542 1 0.12 1.642 ~ 0.09 1.676 0 1/2 >7.5 1.782 = 0.07 1.808" 0? >0.06 1.842 17 0.07 2.172 ~ 0.04 2.246 = 0.06 2.273 2 0.66 2.407 2 0.65 2.430 0 1/2 > 4 . 3 2.609* 2 0.19 2.648* ~ 0.1 2.797 2 0.88 2.849 0 I/2 >0.2 3.233 2 0.33 3.295 0 1/2 >1.4 3.395 0 I/2 >4.4 3.480 2 0.3 3.538* 4? 3.557 0 1/2 >2 3.607 0 I/2 > 0 . 8 5 3.651~ ( =0.1 3.67 j * ~ 0.2 3.770* = 0.9 3.822 = 0.1 3.840 = 0.3 3.863 0? >0.52

0.8880 1.55 0.37 0.06 0.03 0.23 0.001? 0.0157

0.22 0.21 0.12 0.06 0.25 0.006 0.09 0.04 0.13 0.08

Ado ,ted values from ;7Vo05

=0.27 =0.1

=0.1

Adopted values

from 65Bo36

J

*Unresolved group of levels §67Vo05 also gives spectroscopic factors Obtained by use of a different set of deuteron parameters in the DWBA analysis

aspia a s s i g n m e n t s for ~n =i transitions are based on the

J-dependence of the a n g u l a r d i s t r i b u t i o n s

N u c l e a r D a t a B2-6-80

NUCLEAR D A T A SHEETS

%

30 n37-3 Reaction Data

Reaction Data

continued

Coulomb E x c i t a t i o n

Resonance F l u o r e s c e n c e (67)Zn(T,T)

continued

continued

67Zn(x,x'T) Incident

T~

ET

0.090 5 (0.093)

ET

~22 ~75

8.8 ~ s iO

9.4

3

A9.3pS

0.1846 Level scin 56V03 scin 57B139 See 67Zn-I

continued

2°Ne, (0.09126~)(8)

A2 =+0,184 30

62Ri9

C o n s i s t e n t with J - s e q u e n c e 5 / 2 , 3 / 2 - 1 / 2

i f [~(0.0912ey)1 ~0.07 Mossbauer e f f e c t on 0.09331T i s d e s c r i b e d in 60Cr9, 60Na5, 60Po5, 61Akl, 62Al12. 20Ne,(0.1846~)(~)

A2=+0.22715

62Ri9

C o n s i s t e n t with J - s e q u e n c e 5 / 2 - 3 / 2 - 5 / 2 i f $(0.1846T) =+0.51 7 or +3.1 1 Coulomb Excitation

14N,(0.1846T)(~)

64A128

A2 =+0.200 24

STZn(x,x'T)

Consistent with J-sequence 5/2-3/2-5/2 i f ~(0.1846T)=+0.42 8 or +5o4 3

0.09331 Level jn = 1/2-

See Spin Assignments

T~ = 3 , 4 ~ s 7 if B(E2)T =0.00020 4 and ~ = 0 . 8 5 A9.3 ~ s See 67Zdl-I

ETB(E2) T

E~

T 0.00011*2 (0.093) A0.09331

B(E2) T

x

Coulomb E x c i t a t i o n :

Ex

0.00020~4 2°Ne

0.1846 Level See Spin Assignments

AI.OI ns

67Zn(a,a'T); a,T(t) 61Ho5 i f B(E2)T =0.021 3; a(0, 18467) = 0.0193, $ =+0.4; and t r a n s i t i o n c r o s s o v e r / c a s c a d e r a t i o i s 7.2 See 67Zn-1

Level

Xo. 59

x0.87 E~B(E2)?

E7 0.092§ 0.092§

B(E2)t A

X a

Ex 3.5

scin 20Ne 8-15 s c i n

56T26

O. 182 0.184

0.184 A0.1846"

0.037 5 a A0.021 3 2°Ne

3.5 8-15

14N 1 6 . 1

64A127

B(E2)t

O. 30 0.39

O. 0026 6

I(0.30y)/I(O.39y) = 1.38

O. 20 0.59

0.0078 16

I ( 0 . 2 0 y ) / I ( 0 . 5 9 7 ) =0.78

0.030 6

I (0.78T)/I (0.997) = 5.4

O. 49 O. 78 No O. 877

0.99

0.017 4

scin 56T26 scin 62Ri9 s c i n 64A128 See 67Ga-1

§Peak includes both cascade T's: 0.09331, 0.09126 AIf a(0.1840T) = 0.0193 and the t r a n s i t i o n c r e s s over/cascade = 7.2

AAdopted value XNot shown on level scheme

N u c l e a r Data

scin

E7

62Ri9 X0.99

0.032 5 0.018 3

E =35

The f o l l o w i n g i n t e r p r e t a t i o n by 64A127 o f t h e i r T-spectrum from Coulomb e x c i t a t i o n was based on an e a r l y v e r s i o n of the 67Zn l e v e l scheme, The y - r a y branching r a t i o s r e p o r t e d here are no longer c o n s i s t e n t with t h e s e l e v e l assignments. The d a t a are not given in s u f f i c i e n t d e t a i l to make a re-interpretation possible.

xo. 39

T~ = 1.00 ns 10 0.99 14

Other R e s u l t s

67Zn(14N, 14N'T)

8-15 s c i n 62Ri9 See 67Ga-1

*Corrected for cascade yield from higher l e v e l s ~If a(0.093T) =0.85

J~ = 3 / 2 -

67

B2-6-81

Branching

NUCLEAR DATA SHEETS

67

5oZn57-4 Reaction

Data

R e a c t i o n Data

continued

Inelastic Scattering

Pickup Reactions

67Zn(p,p'T)

E = 1.5-5

sce

continued

continued

68Zn(d,t)

66Re05 scin

0.094

E =21.5

E(level)

0.184 0.200

~n

s , E = 15,63Li06§

PWBA 60Ze2

o-(28 ° ) (mb/sr)

S

~(45 °)

E(level

f ( 1 3

=0.4

67Zn(d, d')

s

E = 15

O. 6 1 O. 8 6 1.12 1.58 2.47 2.82

§Natural

67 Pickup Eeactions 68Zn(p,d) DWBA

66Mc15

semi

0.09

g.s.

3

J*

(mb/sr)

S

0.83

3 1 1 1 4? 1? 17 1

5/2 1/2# 3/2T 3/2t 9/2

0.82 1.00 0.51 5.10 0.18 0.07 0.11 0.29 0.03 0.16 O. 12 O. 09 O. 12 O. 07 0.04

3.8 0.40 0.19 1.76 0.90 =0.04 =0.06 0.18

1. O0 1.15 Xl. 37 1.66 1.80

3

0.40

1/2t

3?

1.88

2.16 2.31

1?

2.85

3.85 used

~n

~n

0.63 0.87 1.00 1.18 1.59 1.71

*J-value

E =33

E(level)

0.40 0.61

max

0.18

3? by authors

0.10 0.~79

DWBA

67Bo39

element used for target

0.18

E = 17.5

0

O. 39

1.7 2.25

68Zn (SHe, a)

E(level)

0.39 O. 30

0.18

1.0

1.62 0.03 4.72 1.81 1.08 1.00 1.12

0.40

7.5

O O. 0 9

65Li10

~(45 °) (mb/sr)

E(level)

2.04} 3.4

(mb/sr)

7/2 for

the

1 4 3? 1? 1 1+3 3? 3?

2.08

=1.3

3/2 3/2 9/2

5/2 1/2 1/2 7/2 5/2

4.82

1.95 0.88 0.28 0.23 0.25 0.40 0.97

-

-

-

-

-

2.41 X2.51

-

-

-

_

_

2.66

-

2.85

3? 3? 3? I? 3?

9.28**

11.47

0.65

5/2

C2S

2.24

x3.68 3.85

=0.1

jA

-

-

7/2 7/2 7/2 3/2 7/2

0.40 0.26 0.59 0.31 0.41

AJ-value used by a u t h o r s for t h e a n a l y s i s * * I s o b a r i c analog of the 67Cu g . s .

analysis

~Based on the J-dependence of the a n g u l a r distributions Q's

66Zn(n,T)

Output

66Gr12 68Ra07 68Mass

Output

67Vo05 67Sp09 68Mass

Q =-0.80 6 - 0 . 7 9 0 7 9 Output

60Ze2 68Mass

Q = 7. 0 4 8 5 7. 0457 10 7.0481

66Zn(d,p)

67Zn(d,t)

XNOt shown on level scheme

N u c l e a r Data

B2-6-82

9

Q = 4.827 10 4.820 7 4.8236 9

NUCLEAR DATA SHEETS

67

31 Ga56-t

6round-State

J

3/2 +1.850 +0.22

Q

6 r o u n d - S t a t e Decay

3/(67Zn)

65FuCo 65FuCo 65FuCo

continued

3/2 189" 189"

0.092

slce slce 0.09326 ~ cryst 0 . 0 9 3 3 1 7 20 K/M =58 6 s d ee, sem£ A0.09331 AE2 from l e v e l scheme E K/LM=7.0

-

189" 2521 6round-State

T~

aK

scin pr

0.75 0.066

53M52

LI/L23

13.0 12.2

ce/3/ ce+T/3/ 2.61 7 2.44 17.1

53K17 53M52 66Fr12

E2 M1

Theory E Theory E

1997 0.092 357? 20~ -

scin scin scin

53K17 53M52 55R34

255? 3037

semi semi

-

66Frl 2 67Vr03

3/3 2,4* 2.6"1507 1577 1077

T(67Zn) 3/i

0.09122 ~ eryst 58C08 s d ee, semi 66Fr12 0 . 0 9 1 2 7 5 20 A0.09126 MI+E2~]~I~0 . 0 7 2°Se,3/(~) 67Zn-3

1.4"

2.3"14t? 1327

I(3/1)/I(3/2)

= 0.076 5 0.075 0 . 0 5 3 11 A0.070

aK 0.078 0,074

K/L 1

9 . 7 I0

3/3/-delay 3/3/ (0.2063/)3/

0.185 -

slce K/LM = 12.6 s l e e , p e ; s c i n s c i n , s e i n Cp scin 0.1845 3 tryst K/M =65 6 s d ee, semi 0.18460 ~ O. 184 I semi

A136t A0.1846 2.4*

From I ( 3 / 1 ) / I ( 3 / 2 ) and I(3/1+ 2)

AI8~

53K17 53M52 55K34

aK

K/L 1

L1/L23

0.0176 0.0091

hl/h23

0.0109 0.0578 0.0172

(1.4'/18T) ce/3/ 53K17 66Fr12

52S47 53K17 53M52 55R34 58C08 66Fr12 67Vr03

MI+E2~S = 0 . 4 from ( x , 3 / ( ~ ) 67Zn-3 L e e - d a t a below

9.9 5

10~

12.3 12.5 12.3

(2.4'/1367) sl ce/pe 52M35 10 2 66Fr12 23.6 5.7 9.7

M1 E2

Theory Theory ~ =+0.4

X~ 4

0 . 0 7 0 12.1 0.81 13.1

17.0 2.36

0.073 12.2

13.o

M1 E2

Theory Theory

]~1 =0.07

0.47 <0.37

<0.003*

0 . 2 0 0 10 -

Not o b s e r v e d Not o b s e r v e d

3/3/ 55R34 semi 66Pr12 s d ce 66Pr12

* R e l a t i v e c e K - i n t e n s i t y n o r m a l i z e d to 189" f o r ce K 0 . 0 9 3 3 1 ~ so t h a t a K = 189"/2527 = 0 . 7 5 , t h e theoretical value for a pure E2-transition ? R e l a t i v e p h o t o n i n t e n s i t y n o r m a l i z e d to IT(0.3002T) = 100t

a T r a n s i t i e n c o n n e c t s s t a t e s w i t h odd ~n; AAflopted v a l u e Esee Comment E, Compilers t Analysis XNot shown on level scheme

On the l e v e l scheme, 100~ =100' = 15~0

Nuclear Data

67 m

68Mass

Output

Q+ = 1 . 0 0 0 3 13

K/L 1

10.5 10

3/i+2

(<0.01%)

a 0.54 5

38M01 48M32 50H26 51T25 64Ru06

52S47 53K17 58C08 66Fr12

From I(3/1) and I(3/1+ 2)

Q+ = 1 . 0 0 0 3 13

Decay

79 h 2 78.2 5 80 77.9 3 79.2 5 A78.1 h

No /3 +

continued

B2-6-83

67Zn-2'4

NUCLEAR DATA SHEETS

67

31Ga3c2 Ground-State

7(67Zn)

Decay

6round-State

continued

T(STZn)

continued

Decay

continued

continued

78

Y5 0.18" 4t lO.7t lO.6t 0.117"

0.206

K/LM=14

sl ce,pe 53K17 s c i n , s c i n Cp 53M52 7)/ 55R34 s d ce 6 6 F r 1 2 semi 66Fr12 s e m i 67Vr03 77<~) 67Ga-3 From ce-data below

-

0 . 2 0 8 9 6 6 K/M=61 20

15.5t 14.4t 0.209 1 AO. 12* A0.2090 A14.9t

{

MI(+E2?) a aK 0.0081 0.0055

0.496 A0.00076" 0 . 4 9 4 3 1 10 0.62t 0~32t 0 . 4 9 4 I A0.5t A0.4943

scin s c i n , s c i n Cp scin s d ce semi semi

= 0.7t It

a K =0.0015

53K17 53M52

55R34 66Fr12 66Fr12 67Vr03

(0.00076"/0.5t)

K/L (0.12"/14.9t) 52M35 66Fr12

M1 E2

Theory Theory

scin sd ce semi

55R34 66Fr12 66Fr12

0.69 0 . 6 9 0 10 0.09t 0.7036 2 0.07t 0.705 2 A 0 . 0 8 t A0.7036

s c i n , s c i n Cp scin semi semi

53M52 55R34 66Fr12 67Vr03

0.79 = 0.7t 0.4t 0 . 7 8 0 10 0.37t 0.7947 2 0.30t 0.796 I A 0 . 3 3 t a0. 7947

scin scin, scin Cp scin semi semi

53K17 53M52 55R34 66Fr12 67Vr03

scin scin, scin Cp scin sd ce, semi semi

53K17 53M52 55R34 66Fr12 67Vr03

a K = 0.00103 0.00182

sl ce/pe 1 0 , 6 10

0.0080 0.036

M1 E2

11.8 10.6

Theory Theory

x79

=0.4t <0.005* < O. 03t

0 . 5 9 5 10 Not o b s e r v e d -

76

0.45*

67 I

0.296

0.47"100t 100t

s l ce s l ce, s c i n

52S47 53K17 53M52 55R34 s d c e , semi 6 6 F r 1 2 semi 67Vr03 From c e - d a t a b e l o w

K/LM = 7 . 6

-

loot 0 . 3 0 0 2 4 7 K / M = 7 5 10 0.34"100t lOOt 0 . 3 0 1 t AO.30O2 MI(+E2?) a a0.34"

7i o = 0.4t

=0.4t

K/L

aK 0.0034 0.0025

sl

(0.34"/100t) ce/pe 52M35

7i i

9.55 0.00326 0.0098

11.8 10.8

M1 E2

Theory

sl ce sl ce, scin s c i n , s c i n Cp scin sd ce, semi semi

52S47 53K17 53M52 55R34 66Fr12 67Vr03

Theory

77 0.07* 0 . 0 7 * 24t 36t 30t A 0 . 0 5 2 " 27t 27t A27t

0.378 0.39365 6 0.393 1 0.3936

712 O. 88 =~-~ 0.9t 0 . 8 7 0 10 0.00033"1.0t 0.8880 2 0.888 1 0.77t AO. 8t A0.8880 a K = 0.0004

a K = 0.0019 0.0017 a K =0.00173, 0.0038

(0.00033"/0.8t)

(0.052"/27t) sl e e / p e K/L = 1 2 . 0 10.9

aK= 0.00028 0.00035

52M35

M1 E2

M1 E2

Theory Theory Other measurements:

52M35, 54M19, 59V06

*Relative ceK-intenstty n o r m a l i z e d to 189" f o r ce K 0 . 0 9 3 3 1 T so t h a t a K = 1 8 9 " / 2 5 2 t = 0 . 7 5 , t h e theoretical value for a pure E2-transition tRelative photon intensity n o r m a l i z e d to I T ( O . 3 0 0 2 T ) =lOOt On t h e

level

scheme,

aTransition connects states with odd ~n; 67Zn'2'4 AAdopted value XNot shown on level scheme

100t =100. =1~.0

Nuclear Data

B2-6-84

Theory Theory

NUCLEAR DATA SHEETS

67

31Ga36-5

6 r o u n d - S t a t e Becay

continued

Method s l ce. s l ce scin. s c i n scin. s c i n scin. s c i n

77

6 r o u n d - S t a t e Decay

Reference 52S47 53K17 53M52 55R34

(0. 184677(0. 20907)

53K17

(0.20907)(0.09126+0.09331,0.18467)

53K17

(0.1846+x0.20+0.20907)(0.39367) a (0.49437) (0.70367)

55R34 53M52,55R34 53M52

(0.30027)(0.09126+0.093317) (x ~ 0 . 2 0 7 ) a (0.49437)

53M52 55R34 53K17,53M52,55R34

(0.39367)( x ~ 0. 207) ~ (0.4943~)

77(8) 0.3936 Level (0.2090T)(0,18467)(~) A2 A4 -0.16 3 ~) - 0 . 155 6 (0) -0.222b2~ 0.027 33 A

--0.228b19

0.009 28

-0.22

0

2

continued

solid source liquid source

68Li02

C o n s i s t e n t with 3/2(D,Q)S/2(D,Q)5/2 i f 1~(0.209ffy) 1 <0.02 and S(0. 1846y) =+0.4 Conversion d a t a (67Ga-1,2) show t h e 0.20907 to be probably pure M1 and the 0.18467 t o be MI+E2 with t~1 = 0.4. J = 1/2 for the 0,3936 l e v e l i s r u l e d out i f 18(0.20907)[ <0.15,

55R34 53K17

(0.4943~)(0.3002,0.39367)

53K17,53M52

(E7 > 0.66)(0.184677

0.8880 Level (0.49437)(0.30027)(8)

53M52 +0.165 30

52S47

No (ce O.09331V)(ce 0.18467)

T~(0.09331 l e v e l )

77(t)

53M52 55R34 68Li02

(0.30027)(ce 0.093317)(t) (E~ _<0.3) (0. 093317)(t) (0. 3002~)(0. 09331 7 ) ( t )

8.5

/is

9 . 5 10 9.3 2

A9.3 p s

53K17 53M52 55R34 See 67Zn-I

55R34

C o n s i s t e n t with J(D,Q)3/2(D,Q)I/2 for J =1/2, 3/2, 5/2 Conversion d a t a (67Ga-2) show t h e 0.49437 p r o b a b l y MI+E2, I~I = 1, and the 0.30027 be probably pure M1. These d a t a combine out J =5/2, but do not p r o v i d e a choice J = 1/2 and J =3/2.

to be to to rule between

7~(0.1846 l e v e l ) (0.20907)(0. 18467)(t)

1.01 ns 5 68Li02 AI. OI ns See 67Zn-I

77(#,H) 0.1846 Level

(0.2097)(0. 1847)(8, H) g A~ H(Gauss) 8 ~ "31,200 semi. s c i n / ~ = + 0 . 3 7 5 I2

aNot consistent with proposed level scheme AAdopted value XNot shown on level scheme

i f J =3/2

bcorrection was made for contribution from 9,+

Nuclear Data B2-6-85

68Li02

67

NUCLEAR DATA SHEETS

67 31

Ga36-4 Reaction Data

Reaction Data

continued

Charge-Exchange Reactions

Capture T ' s

67Zn(p,n)

See 67Ge decay (67Ge-l) f o r a d d i t i o n a l Y ' s in 67Ga

6 6Zn (p,T)

Ep = 1.8-4.5

57C30

E(level) Ep = 1.6-3.4 scin 59V06

g.s.

E7 0.172 0.359 0.510 0.820

O. 8 5

2

Xl. 54

2

o. 357 t t

3 3 10 (T ~) 1o

0.90

2

1.20

2

67Zn(p,nV)

See 67Ge decay (676e-1) f o r a d d i t i o n a l Y ' s in 67Oa

Ep = 1 . 6 - 3 . 4 scin 59V06 E7

S t r i p p i n g Reactions 66Zn(d,n)

67

E(level)*

Ep = 1.5-5 sd ce

E =11.7 ~p

0 0.19 0.86 1.13 1.95 2.38 2.80

1 1 1 1+3? 3? 1? 1

DWBA

tfl

680k02

E(level)

~p

g.s. = O. 165 = O. 340

1 1 3

= O. 8 4 0 x:~1.1

1

x=2.1

4 ?

-

0.190

-

0.356

0.356 O. 610 O. 820t O. 905t 1.08 1.19 1.25 1.41

-

O~820t 10 O. 905t 10 -

1. 205t 15 1.42t 2

*Energy r e s o l u t i o n about 0.3 MeV

E = 18

O. 166

3 0.510 t0 ( ~ )

1.40 0.93 0.59 0.28 9.0? 0.18 0.48

DWBA

E7 0.166

(0. 172i 0.359

(2J+1)C2S

66Zn(3He ' d)

EZ

66Re05 scin

t E x e i t a t i o n function shows t h a t these are t r a n s i t i o n s to the 67fia ground s t a t e

65Ze06

67Zn(p,n) g.s.

Q =-1.776 5 -1.7833 15 -1.7828 13

XNot shown on level scheme

N u c l e a r Data

B2-6-86

57C30,65Ry01 64Joll Output

68Mass

NUCLEAR DATA SHEETS

67

52Ge55 -'1

Ground-State Decay

Q+ = 4.33 10

m 21 19 18.2 t2 18.7 5 21 1 19.0 3

T~

50H26 53A23 56R45 59R35 64Va23 68Ba15

Ground-State Decay T(676a) a

scin

IT% 126 <3

59R35

semi

O. 170 5 0 . 3 4 0 15

1.9

0 . 6 5 0 15

(0.08* ( 6.7* (17.3"

0.68 1.24 1.60

2.2

0 . 7 5 0 15

4.9

0 . 8 4 0 I5

8.7

0.920

1.0 1.0 0.6

1.00 2 I. I0 2 1.16§ 3

)

5.5 ) 0.56) 0.23)

~1 ~4 <25" <15" ~5 t o ~7 (3.9* ( 12" (4.2*

1.6 3 1.54

sein scin

59R35 68Ba15

From level scheme 1.96 2.33 2.58

fe/f+=0.12 ) 0.068) 0.049)

~5-7 40* =38*

2.3 2 2.5

scin scin

1.27§ ~

5.8

1.48

2

2.2

1.65

3

1.9 0.5

1.83 1.98

4 5

(20.5* (79.5*

100" 100"

3.08 3.24

0.8

2.53

4

0.2

2.70

4

0.5 0.4

3.13 3.39

6 6

fe/f+=0.028) 0.024)

scin sl scin

3 . 1 4 10 2.96 5 3.18

59R35 64Va23 68Ba15

A3.14 10

+ 0 . 1 6 6 5 + 2mc 2 = 4 . 3 3

10

Input Output

I~t 2.2

0.166 1 0.359 1

0.3

0.662 1

5.7 2.4 11.1

2.9 1.1 3.1 1.0 4.9

0.727 O. 8 1 2 0.828 0.899 0.912 0.981 1. 0 8 2

0.828 1 Xo.900 1 0.915 1 0.981 I 1.082 2 1.116 2

0.4 1.0 9.7 O. 7 2.4

1.283 1. 4 5 0 1. 477 Xl . 599 1.644

2.0 0.5 O. 9 O. 9 O. 1 0.1

1.810 1.837 2. 0 0 4 x2. 100 2. 170 x2. 210

0.1 x2.510 0 . 1 5 2. 559 =0.15 2.726 = 0 . 0 5 x2. 9 5 8 =0.1 2.991 =0.1 3.065 =0.1 3. 157 3. 398

2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2

(127)

E~

1.3 1.1

<0.4

1 i 1 2 1 1 l

0.5

1.1455 2 1.2665 2

0.7 4.3

1.450 2 1.472 1

2.5 1.4

1.6415 2 1.809 2

<__O. 2 = 0.2

2. 120 3. 409

tPhoton intensity relative to I ( T ~) = 2 0 0 ~ . D a t a o f 68Vr01 a r e n o r m a l i z e d a t t h e 0 . 1 6 6 5 d o u b l e t . On t h e l e v e l scheme 1 0 0 t c o r r e s p o n d s t o 88 p e r 100 d e c a y s of 676e § P a r t l y due t o summing SMay be due t o i m p u r i t y

* R e l a t i v e f l + - i o t e n s i t y n o r m a l i z e d t o 100" for I(~8)+I(~9). On t h e l e v e l scheme 1 0 0 ' c o r r e s p o n d s t o 64% of t h e 67Ge d e c a y

Q+=E(3.14~) = 4.43 5

68Vr01

6 0. i 0.2 0.3

2.8 2.6 2.0

From level scheme

~8,~ 9

88%

59R35 68Ba15

15

0.3

AE~

0.1665b3 0.360 I 0.558 t x0.576 1 0.661 i 0.672 1 0.08 Xo.710 I 0.16 0.720 1 4.5 0.728 1

From level scheme fE/f+=1080

semi

127b

8+ 0.25

68Ba15

h~t

ET

A19 m

81 to~4 (=0.0003*

continued

68Mass 68Mass

/37/

(0. 16659/) ( 2 . 5 ,

3.18/3)

semi.semi

68Ba15

aSee 6 7 f i a - 4 f o r T ' s s e e n in r e a c t i o n s b c o i n c i d e n c e work by 68Ba15 shows t h i s p e a k t o be made up of two T ' s , e a c h h a v i n g e n e r g y 0 , 1 6 6 5 . The i n t e n s i t y r a t i o f o r t h e two T ' s i s shown t o be 2 7 / 1 0 0

AAdopted value XNot shown on level scheme

Nuclear Data

B2-6-87

67

NUCLEAR DATA SHEETS

67

52Ge55-2 Ground-State Decay

Ground-State Decay

continued

continued

Best Evidence for Nuclidic Assignment

~7

(0.1665~)(0.1665, 0.360, w i , x0.710, 0.728, 0.915, 0.981, 1.283 §, 1.477, 1.6449/) semi'semi 68Ba15 (0.1665, 0.360, W±, 0.661, 0.728, 0.915, 0.981, 1.283, 1.477, 1.644, 1.837, 2.004, x2,380§, 2.559 §, 2,991 §, 3.065 §, 3.157 §A, x3.232§~) s c i n ' s e m i 68Ba15

Zn(19-MeV a) p 78-h 6~Ga

chem 0.092, 0.18467

59R35 59R35

R e a c t i o n Data

(~±)(0.1665,,

0.661, 0.728, 0.828, 0.915, semi.semi 68Ba15 1,450, 1.4777) (0.1665, 0,661, 0,728, 0.828, 0,915, 1.082 §, 1.116 §, 1.283 §, 1.450, 1.477, 1.644, 1.810§T) s c i n ' s e m i 68Ba15

Q

(0.728~)(0.1665, 0.360, T±, 0.915, 1.082§, 1.450a~) semi.semi 68Ba15

67

(0. 915~)(0. 1665, T±, 0. 672 §, 0. 728)/) semi,semi (0.1665, 0.360. ~±, 0.672 § , 0.728, 1.644§~) scin.semi

68Ba15

(1.450+1,4777)(0.1665, 0.360, ~±, 0.672, 0.9159/) semi'semi

68Ba15

(1.4777)(0. 1665, 0.360, ~±, 0.672, 0. 915~) semi'semi

68Ba15

68Ba15

(1.644~)(0.1665, 0.360 §, ~ i , 0.672 §, 0,915§y) semi'semi (0.1665, 0.360 §, W±, 0.672 §, 0.915, 1.082§y) scin'semi

68Ba15 68Ba15

(1.800 peak)(0.1665, 0.360, ~±, 0.672, 0.9159/) scin'semi

68Ba15

§Weak c o i n c i d e n c e s ANot c o n s i s t e n t with the l e v e l scheme

scin Sum peaks observed at: 0.34 1, 0.68 t, 1.16 3, 1.20 5, 1.27 4, 2,18 4, 2.36 6, 2.90 6

scin'scin'semi

59R35

68Ba15

(0. 16657) (7±) (0. 16657)

yT(t) (o. 1665~)(o. 1665~/)(t)

scin

68Ba15

T~(0,1665 l e v e l ) ~0.22 ns 5

XNot shown on level scheme

Nuclear Data B2-6-88

64Zn(a,n) g.s.

Q=-9.24 6

64St01

= -9.20 5

68Mass

NUCLEAR DATA SHEETS

A=67 REFERENCES Explanation of report identifications (BNL, ISC, etc.) and a list of USAEC Depository Libraries in countries outside the USA through which reports may be obtained are given in the first issue of each volume. References to reports are not used if a journal reference is available. 38M01

W.B.Mann - Phys.Rev. 54, 649 (1938)

48M32

D.A.McCown, L.L..Woodward, M.L.Pool - Phys.Rev. 74i 1311 (1948)

501-126 50K05

H.H.Hopkins,Jr. - Phys.Rev. 77, 717 (1950) D.N.Kun~, M&.Pool - Phys.Rev. 78, 488 (1950)

51"1"25

J.Tobailem - Compt.rend. 233, 1360 (1951)

52M35 52S47 52S66

A.Mukerji, P.Preiswerk - Helv.Phys.Acta 25, 387 (1952) K.Siegbahn - Arkiv Fysik 4, 223 (1952) P.C.Stevenson, H.G.Hicks - priv.comm, to 53H01 (April 1952)

53A23 53Ell 53H01 53K17 53M52 53N05

A.H.W.Aten, Jr., T.de Vries-Hamerling, L.Lindner - Physica 19, 1046 (1953) H.T.Easterday - Phy=.Rev. 91,653 (1953) JJ~H~llandar, l.Perlman, G.T.Seaborg- Rays.Modem Phys. 25, 469 (1953) B.H.Ketelle, A.R.Brosi, F.M.Porter - Phys.Rev. 90, 567 (1953) W.E.Meyerhaf, L.G.Uann, H.I.We6t,Jr. - Phys.Rev. 92, 758 (1953) R.H.Nus=baum, A.H.Wapstr=, N.F.Ver=ter - Phy=ica 19, 131 (1953)

54.B97 54M19

N.E.Booth, D.T.Roberts - Proc.Roy.Soc.(Canada)48, 29A (1954) D.Maeder, R.Mu|ler, V.Wlntersteiger- Helv.Phys.Acta 27, 3 (1954)

55R34

L.H.T.Rietjens, H.T.van den Bold - Physica 21,701 (1955)

56R45 56126 $6V02

G.Rudstam - Thesis, University of Uppsala (1956) Spallation of mediu~t-weight elements G.M.Temmer, N.P.Heydenbut9 - Phys.Rev. 104, 967 (1956) S.H.Vegors,Jr., P.Axel - Phys.Rev. 101, 1067 (1956)

57B59 57B139 57C30

W.Beusch, P.Erdos, D.Maeder, P.Stoll - Helv.Phys.Acta 30, 268 (1957) A.J.Bureau, C.L.Hammer - Phy=.Rev. 105, 1006 (1957) R.A.Chapman, J.C.Slattery - Phys.Rev. 105, 633 (1957)

58C08

E.L.Chupp, J.W.M.DuMond, F.J.Gordon, R.C.Jopson, H.Mark- Phys.Rev. 109, 2036 (1958)

59Full

Relative Isotopic Abundances compiled by G.H.Fuller, 1959 Nuclear Data Tables, p.127. U.S.Govemment Printing Office, Washington, D.C. 20402 ($1.00) R.A.R4c¢it R.wn Lie=hour- Nuclear Phys. 10,360 (1959) A.K.Vaher, |,l.Zalyubovskli, V.A.Klyucharev, V.A.Lutsik - Izvest.Akad.Nauk SSSR, Ser.Fiz. 23, 849 (1959); Columbia Tech.TransL 23, 842 (1960)

59R35 59V06

6009 60Na5 60Po5 60Ze2

P.P.Croig, D.E.Nagle, D.R.F.Cochran - Phys.Rev.Letters 4, 561 (1960) Zeeman effect in the recoiZZess T-ray resoncgtce of Zn 67 D.E.Nagle, P.P.Cralg, W.E.Keller - Nature 186, 707 (1960) R.V.Pound, G.A.Rebka, Jr. - Phys.Rev./etters 4, 397 (1960) B.Zeidman, J.L.Yntema, B.J.Raz - Phys.Rev. 120,.t723 (1960)

61Akl

S.I.Aksenov, V.P.Alfimenkov, V.h/ushchikov, Mu.M.Ostanevich, F.L.Shaplro, Y.Wu-Kuang - Zhur.Eksptl. j Teorat.Fiz. 40, 88 (1961); Soviet Phys.JETP 13, 62 (1961) 61H05 R.E.Holland, F.J.Lynch - Phys.Rev. 121, 1464 (1961) 61Wi 19 D.C.Wil~iams, J.W.lrvine, Jr. - MIT-LNS Progr.Report, p.33 (November 1961); NYO-2668 62AI 12 V.P.Alfimenkov, Yu.M.Ostanevich. T.Ruskov, A.V.Strelkov, F.L.Shapiro, W.K.Yen - Zhur.Eksptl.i Teoret.Piz. 42, 1029 (1962); Soviet Phys. JETP 15, 713 (1962) 62Ri9 R.C.Ritter, P~H.Stelsan, F.K.McGowan, R~L.Robinson -. Phys.Rev. 128, 2320 (1962)

Nuclear Data B2-6-89

67 m

NUCLEAR DATA SHEETS A=67 REFERENCES

63Li06

E.K.Lin, B.L.Cohen - Phys.Rev. 132, 2632 (1963) Nuclear structure studies in the zinc isotopes with stripping reactions

64AI27

D.G.Alkhazov, K.I.Erokhina, I.K.Lemberg- Izv.Akad.Nauk SSSR, Ser.Fiz. 28, 1667 (1964); Bull,Acad.Sci. USSR, Phys.Ser. 28, 1559 (1965) Coulomb excitation of Cosg, Ni 61, ZnaT, Mo9s, [go97, Rh1°3, Pd1°5, Cd11t., In 11s, Cs 13s andDy I"s D.G.Alkhazov, V.D.Vasilev, G.M.Gusinskii, l.K.Lemberg, V.A.Nabichvrishvili - Izv.Akad.Nauk SSSR, Ser.Fiz. 28, 1683 (1964); BulI.Acod.Sci.USSR, Phys.Ser. 28, 1575 (!965) Angular distribution of gamma radiation emitted in Coulomb excitation of odd-A nuclei C.H.Johnson, C.C.Trail, A~Galonsky - Phys.Rev. 136, B1719 (1964) Thresholds for (p,n) reactions on 26 intermediate-weight nuclei G.Rudstam - NucI.Phys. 56, 593 (1964) Peripheral reactions in copper indhced by 19 GeV protons P.H.Stelson, F.K.McGowan - Phys.Rev. 133, B911 (I 964) Cross sections for (C~,n) reactions for medium-weight nuclei S.S.Yasilev, E.T.George, L.Y.Shavtvalov - Zh.Eksperim.i Teor.Fiz. 47, 1164 (1964); Soviet Phys.JETP 20, 783 (1965) Study of the fl+ spectra of Ne 19, 6e6r, Sb 1is, c~d of the T radiation from o-particle bombardment o f Au197

64AI28

64Joll 64Ru06 64St01 64Va23

V.P.Bochin, K.I.Zherebtsova, V.A.Komarov, L.V.Krasnov, V.F.L.itvin, Y.A.Nemilov - Vestn.Leningr.Univ., No.10, Ser.Fiz.Khim., No.2, p.34 (1965) A study of (d,p)stripping effect on intermediate nuclei (part 3) 65FuCo Nuclear Moments compiled by G.H.Fuller and V.W.Cohen, Appendix 1 to Nuclear Data Sheets, issued with Volume 6, Set 5 E.K.kin - NucI.Phys. 73, 613 (1965) 65Li10 Inelastic scattering of deuterons from Zn and Se isotopes 65Mc03 A.L.McCarthy, B.L.Cohen, L.H.Goldman - Phys.Rev. 137, B250 (1965) Isomers with half-lives in the range 5-1000 microseconds observed in pulsed 15-MeV deuteron becon bombardment of natural elements 65Me06 J.L.Meason, P.K.Kuroda- Phys.Rev. 138, B1390 (1965) New isotope Ni 67 65No05 J.A.Nolen, Jr. - Thesis, Princeton Univ. (1965); PUC-937-171A (1965) Direct (p,~) reactions on isotopes of copper and zinc 65Ry01 A.Rytz - NucI.Phys. 70, 369 (1965) Recalibration of nuclear reaction energies for target mass numbers A <-- 70 65Sa20 Z.P.Sawa - Res.lnst.for Phys., Stockholm, Annual Rept., p.27 (1965) (21f + 1)-intensity rule in (Ct,p)-reactions 65Sa21 Z.P.Sawa - Res.lnst.for Phys., Stockholm, Annual Rept., p.34 (1965) Spin properties of levels in medium weight nuclei obtained in (Co,p) reactions 65Ze06 B.Zeidman, R.H.Siemssen, L.L.Lee, Jr. - BulI.Am.Phys.Soc. 10, No.8, 1126, FD10 (1965) Study Of Zn66 '6S (HeS,d)co67 ,69 reactions 65B036

67 /

66Bh07 66Bj02 66Fr12 66Grl 2 66Mc15 66Re05 66Slum 67BaGr

C.P.Bhalla, M.S.Freedman, F.T.Porter, F.Wagner - Phys.Letters 23, 116 (1966) Internal conversion coefficients with relativistic ttartree-Fock atomic model: comparison with 67Zn J.H.Bjerregaard, O.Nathan, S.Hinds, R.Middleton - NucI.Phys. 85, 593 (1966) The reactions 63 "sCA~(t,p)6S '67C~ M.S.Freedman, F.T.Porter, F.Wagner - Phys.Rev. 151,886 (1966); priv.comm. (June 1967) Internal conversion, zultipole mixing, and Auger spectru~ in Zr67 from Ga6r decay L.V.Groshev, A.M.Demidov, N.Shadiev - Izv.Akad.Nauk SSSR, Ser.Fiz. 30, 1136 (1966); BulI.Acad.Sci.USSR, Phys.Ser. 30, 1187 (1967) Co.a-ray spectrum emitted incident to thermal neutron capture in zinc isotopes L.C,Mclntyre - Phys.Rev. 152, 1013 (1966) (p,d) and (p,t) reactions on the Zn isotopes at I7.5 MeV D.H.Rester, F.E.Durham, C.M.Class - Nucl.Phys. 80, 1 (1966) Level schemes of 67,6s ,7OGa Values recommended by Sigma Center, Brookhaven National Laboratory, published on Chart of the Nuclides, Knolls Atomic Power Laboratory, July 1966 G.A.Bartholomew, A.Doveika, K.M.Eastwood, S.Monaro, L.V.Groshev, A.M.Demidov, V.I.Pelekov, L.L:Sokolovskii NucI.Data A3, 367 (1967) Compendiwa of thermal-neutron-capture T-ray measurements, Pt. I, Z < 66

Nuclear

Data

B2-6-90

NUCLEAR DATA SHEETS

A=67 REFERENCES 67Bo39 67Ch02 67Sp09 67V005 67Vr03

68Ba15 68Li02

68Mass 68Ok02

68Ra07 68Re04 685e03 68Vr01

D.D.Borlln - Thesis, Washington University (1967) (3He,c~) reactions on intermediate nuclei G.Chursin, M. Fazio, S.Micheletti, M.Pignanelli, I_.Zetta - Nucl.Phys. A93, 209 (1967) The (n,d) reaction on Cu and Zn isotopes A.Sperduto - Proc.lntem.Conf.Atomic Masses, 3rd, Winnipeg, Canada, R.C.Barber, ed., Univ.Manitoba Press, p.657 (1967) Ground state Q-values measured at M.I.T. D.von Ehrenstein, J.P.Schiffer - Phys.Rev. 164, 1374 (1967) Study of the (d,p) reactions on ~/64,66t68,70 Y.Vrzal, B.S.Dzhelepov, Y.Liptak, L.N.Moskvin, V.P.Prikhodtseva, B.M.Sabirov, V.G.Tishin, Y.Urbanets, L.G.Tsaritsyna Izv.Aked.Nauk SSSR, Ser.Fiz. 31, 1647 (1967) T-radiation o f 66Ga, 6ZGa, 72Ga H.Bakhm, I.M.Ladenbauer-Bellis - BulI.Am.Phys.Soc. 13, No.4, 582, BF1 (1968); priv.comm. (May 1968) Decay of C,e67 R.M,kieder, M.Fleck, K.Killig, M.Forker, K.-H.Speidel, E.Bode~stedt - Nucl.Phys. A106, 389 (1968) The g-factor of the 186 keY state of "TZn Adiusted Moss Differences by W.B.Ewbank at the back of this issue V.V.Okorokov, V.M.Serezhin, V.A.Smotryaev, D.k.Tolchenkov, I.S.Trostin, Y.N.Cheblukov - Program and Theses, Proc.18th Ann.Conf.NucI.Spectroscopy and Struct.of At.Nuclei, Riga, p.116 (1968) The reactions s8,6o ,6a ,64Ni(d,n)S9 ,61,63 ,~sGu and 64,6~ ,6SZn(d,n ) 6s ,67,69C,e N;C.Rasmussen, Y.Hukai - priv.eomm. (1968) S.A.Reynolds, J.F.Emery, E.I.Wyatt - NucI.Sci.Eng. 32, 46 (1968) ftalf-lives of radionuclides - I I I G.Semenescu, M.Ivascu, D.Bucurescu, M.Titirici - Rev.Roumaine Phys. 13, 185 (1968) (C~,p) reactions on nickel isotopes at 19.3 and 20. t MeV bombarding energies Y.Vrzal, B.S.Dzhelepov, Y.kiptak, /.N.Moskvin, Y.P.Prikhodtseva, T.l.Sidorova, Y.Urbanets - Program and Theses, Proc. 18th Ann.Conf.NucI.Spectroscopy and Struct.of At.Nuclei, Riga, p.43 (1968) T-radiation o f 66C.e and 67C,e

Nuclear Data B2-6-91

67