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E2, M1 multipole mixing ratios
ATOMIC
DATA AND NUCLEAR
DATA TABLES
25, 29-89 (1980)
E2, Ml MULTIPOLE Supplement
MIXING
and Corrections
KENNETH Department
RATIOS
through December
1979*
S. KRANE
of Physics, Oregon State University Corvallis, Oregon 9733 1
Presented here is an updated compilation of E2, M 1 multipole mixing ratios based on analysis of angular distribution and correlation data from the literature. The present compilation includes data which have appeared in the literature subsequent to the publication of previous compilations of this series, and also includes data for odd-Z, odd-N nuclei which have not been previously surveyed. Several cases are noted in which previously accepted spin assignments or multipole mixing ratios have been shown by more recent data to be incorrect. The present compilation includes data from the literature up to December 1979. Previous Compilations A s 57 58 s A(even) < 150 59 c A(odd) s 149 A(odd) 2 150 A(even) 3 152
in This Series ADNDT
22, 20, 19, 18, 16,
269 211 363 137 383
(1978) (1977) (1977) (1976) (1975)
* This work was supported in part by a grant from the Oregon State University
0092~640X/80/010029-61$02.00/O Copyright 0 1980 by Academic Press, Inc. All rights of reproduction in any form reserved.
29
Atomic
Computer
Data and Nuclear
Data Tables.
Center
Vol. 25. No. 1. January
1960
K. S. KRANE
EZ,
Ml Mixing Ratios, Supplement and Corrections, December 1979
CONTENTS
I. INTRODUCTION II. DEFINITIONS III.
.. . .. . .. . .. . .. . .. . .. . .. . .. . .. . . .. .. . .. . AND PHASE
COMPILATION
IV. CHANGES EXPLANATION TABLE
TABLE
TABLE
I.
II.
III.
REFERENCES
POLICIES FROM
PREVIOUS
CONVENTION
30
. .. . . .. .. . .. .
31
. . .. . .. . .. . .. . . .. .. . . ., .. . . ,. .
31
. .. . .. , ..
31
. . .. . .. . . .. . .. . .. . .. . .. .. . . .. ..
34
Experimental Data on Angular Distributions and Mixing Ratios in Odd-Odd Nuclei. Supplement to ADNDT 22, 269 for A < 57. New Table for A > 57 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
36
Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei. Supplement to ADNDT 22, 269 (A -C 57); 20, 211 (58 s A c 150); 16, 387 (A 3 152) . . . . . . . . . . . . . . . . . . . .
42
Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei. Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 c A =s 149); 18, 137 (A > 150) . . . . . . . . . . . . . . . . . . . .
53
OFTABLES
FOR TABLES
COMPILATIONS
. . .. . .. . .. . .. . .. . .. . .. . .. . .. .. .
77
I. INTRODUCTION
In order to provide a complete and consistent set of values of E2, Ml multipole mixing ratios of nuclear gamma rays, compilation and evaluation of angular distribution and correlation data from the literature were undertaken. In the previous papers in this series,1-5 various mass ranges of nuclei were considered and the multipole mixing ratios analyzed in a phase-consistent manner. In reviewing the previous work, several facts become apparent: (1) None of the previous compilations covered odd-Z, odd-N nuclei except the A < 57 compilation.5 (2) In the 5 years since the first member of this series was published, new
and interesting data have appeared in the literature. (3) Often these new data have indicated that previously accepted spin-parity assignments or multipole mixing ratios were incorrect. In order to remedy deficiencies caused by these facts, a new compilation was undertaken which includes results for odd-odd nuclei and which brings all mass ranges up to the common cutoff date of December 1979. In preparing this new compilation, a particular effort was made to compare newer work with previous work. In this way it has often been possible to resolve ambiguities in the older work, such as spin-
30
Atomic
Date and Nuclear
Data Tables,
Vol. 25. No. 1, January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
analyzed. The results of the reanalysis in the present compilation.
parity assignments or multipole mixing ratios which previously could not be uniquely assigned or deduced. In such cases the data from the older work were reII. DEFINITIONS
AND PHASE CONVENTION
Steffen and Alder,6 in which the multipole mixing ratio S is defined as the ratio of emission matrix elements:
The E2, Ml multipole mixing ratio is defined as the ratio of the electric quadrupole (E2) and magnetic dipole (Ml) matrix elements for a transition from an initial state J, to a final state Jr. For consistency in comparing results of different experiments, and in comparing experiment with theory, the phases must be carefully defined. We follow the phase convention of
6 = (JdIE2IIJi) Other phase conventions and their relations present choice are discussed in Ref. 1.
The angular distribution of gamma radiation from an oriented nucleus, or the angular correlation of successive gamma rays from an unoriented nucleus, is usually presented as a series of Legendre polynomials e) + a4P4(cos e).
(1)
Wl~Wi~ ’
III. COMPILATION
w(e) = a0 + a,P,(cos
are presented
to the
POLICIES
in reasonable mutual agreement. When large disagreements exist, an average value intermediate between the individual values has been selected, with an uncertainty (often larger than the individual uncertainties) large enough to overlap the individual values of 6. Preference in such analyses has been given to more recent work using Ge(Li) detectors. Entries in the Tables with no special indications are for transitions which are not listed in any of the previous compilations in this series. Transitions which have been listed in a previous compilation, but for which the newer value of the mixing ratio does not change the previous average, are indicated with a single dagger (t); for transitions in which the newer value(s) of the mixing ratio changes the average value given in previous work, a single asterisk (*) indicates both the individual entry and the new average. Finally, transi-
(2)
The coefficients ak (normalized so that a0 = 1) contain the information on nuclear spin assignments, degree of orientation, and gamma-ray multipole mixing ratios. These coefficients and their experimental uncertainties are presented in Tables I, II, and III. The Tables also give the deduced values of the mixing ratios, based on the presently accepted spin and parity assignments. These values, with their uncertainties, are given either as deduced by the authors in their papers or as deduced by the compiler when the original paper presented a value shown by subsequent work to be incorrect (for example, based on incorrect spin-parity assignments). The Tables also list a best or “average” value of S. This value is most often a weighted average of the results of all previous work, when the results are
tions which were listed previously, but for which sub-
sequent deduce asterisk Section
studies have shown the assumptions used to 6 to be incorrect, are indicated with a double (**) and are discussed in greater detail in IV.
IV. CHANGES FROM PREVIOUS COMPILATIONS
Subsequent experiments have indicated several cases in which the choice of spin assignment or multipole mixing ratio made in previous work is incorrect. Listed below are the changes which must be made to data listed in previous compilations. These changes are included in Tables II and III of the present work, where they are marked with a double asterisk (**).
not substantial.) The larger value of 6 is in better agreement with the new a4 and also with the systematics of similar gamma transitions in this region, and is therefore shown in the present compilation as the accepted S. 2. 17*Yb. Recent results (76KRO4) suggest the selection of the larger value of 6 for the 1584-keV transition; the previous data of 63STO9 have been reanalyzed accordingly.
A. A (even) 2 152, Ref. 1 B. A (odd) > 150, Ref. 2
1. lszGd. 75HE13
argue for a large value of 6 for the 1090-keV transition, based on their measured a4, which differs from the a4 values tabulated in Ref. 1 (although the difference, about 2 standard deviations, is
I. lslGd. According to 79VA14, the 839-keV level is assigned spin-parity l/2-. The deduced values of the 252- and 444-keV mixing ratios are therefore
31
Atomic
Data and Nuclear
Data Tables.
Vol. 25, No. 1. January
19.90
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
changed, and the 73I-keV transition, previously assigned as Ml + E2, is now pure E2 (l/2- - 5/2-). 2. 19’Pt. The level scheme assumed in the previous work of 675006 has been revised (see Ref. 7 for a summary of the results on which the new level scheme is based). This does not change the values of S listed in Ref. 2, derived from L-subshell measurements, but the spin assignments and the placement of some of the transitions have been changed. In the present listing the currently accepted spin assignments are shown. 3. *OlHg. 78N006 suggest spin assignments different from those of the previous tabulation. In particular, 78N006 and 75HOOS measure anisotropies of the opposite sign for the 135-32 keV cascade. The resolution of this conflict is at present not apparent, and so we regard the correct interpretation of both sets of data as being in doubt until further work clarifies the situation. The results of 78N006 are therefore reported in Table III, but no conclusions are drawn. 4. *15Po. The spin assignments presently acceptedB require that the 402-keV transition, previously assigned as Ml + E2, be reassigned as pure E2 (5/2+ - 9/2+). 5. 219Z?n. The ground-state and 269-keV spinparity assignments are both presently accepted9 as 5/2+, and on that basis the measured alpha-gamma correlations are analyzed as shown in Table III. 6. 223Ra. Newly assigned spins and paritieslO permit the analysis of the previously measured alphagamma correlations.
5. lo5Rh. 79SA23 argue convincingly for a l/2+ assignment for the 786-keV level, which was previously labeled 5/2-. This new assignment is consistent with all previous work as well as with the more recent work. The 393-keV transition, previously designated Ml + E2, would then be ofE1 multipolarity. New deduced values of the 263- and 316-keV mixing ratios based on the new assignments are tabulated in the present work. 6. 14’Pm. The 489-keV level has been shown by 77AL34 to be 7/2+, resulting in new deduced values for the 398- and 197-keV mixing ratios. 7. 14’Eu. The 1122-keV level is presently assigned” 7/2+, and the 893-keV mixing ratio has been recomputed from the data of 71VA37 on that basis. 8. 149Eu. 77FL09 favor a 9/2+ assignment for the 666-keV level. Owing to the uncertainty in the 150-keV mixing ratio, the angular correlation data of 75SE18 are somewhat ambiguous and the more recent value of the 516-keV mixing ratio given by 77FL09 is preferred.
D. 58 s A (even) G 150, Ref. 4 2. lo6Pd. Recent data (77TIOl) favor the choice of the larger value of 8 for the 1046-keV transition; that choice is also consistent with previous work, and the new deduced values are shown in Table II. In addition, the parity of the 2500-keV level was incorrectly assigned; recent results (77OKO3) suggest negative parity, so the 1988-keV multipolarity is now El, rather than Ml + E2 as previously assigned. 2. “OCd. The larger value of 8 for the 1505-keV transition is in better agreement with recent experimental results (77RUZT and 78WA07). 3. lz4Te. In Ref. 4, the second work listed for the 714-keV transition should be referenced 72BA38.
C. 59 s A (odd) d 149, Ref. 3 I. 61Ni. The 5/2- assignment previously made for the 1457-keV level appears to be incorrect; the level is presently assigned 7/2- by 77WA03 (with a refined energy of 1454 keV). The ground-state transition would then be pure E2 (7/2- - 3/2-) rather than Ml + E2 as previously assigned, and the previous value of 6 for the 1390-keV transition should be replaced with the present value. 2. “%z. In the previously tabulated data for the 1229-keV transition, Jf was incorrectly given as l/2-. The correct assignment is 3/2-. This is merely a tabular error and does not change the deduced 6. 3. 95Tc. The 1214-keV level is presently assigned 9/2- (78MA05), resulting in pure E2 multipolarity for the 547-keV transition, which was previously shown as Ml + E2. 4. 97Nb. The 1148-keV level has recently been shown (78KR03) to be 7/2+, rather than 5/2+ as previously accepted. The new deduced mixing ratios for the 1148-, 602-, and 703-keV transitions are given in the present work.
E. A =S57, Ref. 5 1. 39K. The 5718-keV level should probably be assigned 13/2- (78EG02); the choice of the 1774-keV mixing ratio cannot be made unambiguously. 2. 53Mn. The 3440-keV level is presently assigned 15/2- (79GUlO), and the correspondingly deduced 747keV mixing ratio is given in Table III. 3. 42Ca. According to recent results (78EG02, 78PR02), the spin assignments listed in Ref. 5 for levels above 5 MeV are incorrect. The assignments should instead be: 5491 keV, 66; 5744 keV, 7-; 6145 keV, 7-; 6409 keV, 88. The transitions 2302-, 1644-, 2955-, and 321PkeV, previously designated Ml + E2, are now designated El, E2, El, and M2, respectively. The previously tabulated value for the 264-keV mixing ratio should be replaced by the values listed in Table II.
32
Atomic
Data and Nuclear
Data Tables.
Vol. 25. NO. 1, JanuW
1950
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
5. K.S.Krane, ATOMICDATA ANDNUCLEARDATA TABLES 22, 269 (1978) [A 4 57)
Acknowledgments The cooperation of the Oak Ridge Nuclear Data Project in preparing the reference list is acknowledged with appreciation.
6. R. M. Steffen and K. Alder, in The Electromagnetic Interaction in Nuclear Physics, edited by W. D. Hamilton (North-Holland, Amsterdam, 1975) 7. E. Browne, NUCLEAR DATA SHEETS 30,653 (1980)
References 1. K.S.Krane, ATOMICDATAANDNUCLEARDATA TABLES 16, 383 (1975) [A (even) 2 1521
8. C. Maples, (1977)
NUCLEAR
DATA SHEETS 22, 207
2. K.S.Krane, ATOMICDATAANDNUCLEARDATA TABLES 18, 137 (1976) [A (odd) > 1501
9. C. Maples, (1977)
NUCLEAR
DATA
SHEETS 22, 223
3. K.S.Krane, ATOMICDATAANDNUCLEARDATA TABLES 19, 363 (1977) [59 s A (odd) G 1491
10. C. Maples, (1977)
NUCLEAR
DATA
SHEETS 22, 243
4. K.S.Krane, ATOMICDATAANDNUCLEARDATA TABLES 20, 211 (1977) [58 s A (even) G 1501
11. B. Harmatz, W. B. Ewbank, SHEETS 25, 113 (1978)
33
Atomic
Data and Nuclear
Data Tables.
NUCLEAR
Vol. 25, No. 1. January
DATA
1980
K. S. KRANE
E2, Ml
Mixing Ratios, Supplement and Corrections, December 1979
EXPLANATION INITIAL
LEVEL
E(KEV)
J
FINAL
LEVEL
E(KEV)
E(KEV) TECHNIQUE
E
J
N Or
G
P
RA
or
QT
A, A P, N
K, L, M RF
A2,
I, II, AND III
The energy, in keV, and spin-parity assignment of the initial state of the gamma transition. In Table III, where all spins are half-integral, the tabulated spin is 2J. Same as above for final state
J
GAMMA-RAY
HT
OF TABLES
A4
The energy, in keV, of the gamma-ray transition E = &titia, - &,,a, The means used to obtain the E2, Ml mixing ratio The first entry here gives the general experimental method, indicated as follows: Conversion electron detected, either in angular correlation measurement or as internal conversion coefficient measurement Nuclear orientation by a technique not using coincident emitted radiation; that is, the angular distribution of the gamma-rays from nuclei oriented by, for example, a nuclear reaction or cryogenic techniques Detection of gamma-ray using NaI or Ge(Li) detectors, respectively Gamma-ray polarization (linear or circular) measurement Reanalysis of previous data The second entry here gives the coincident transition (numerical value, giving energy in keV) or orientation process, according to the following symbols: Cryogenic orientation by magnetic dipole or electric quadrupole interactions, respectively. Incoming, outgoing particles in nuclear reactions: A = 4He (alpha) N, XN = n , xn (neutron) c = q-J NE = 20Ne NI = 14N D = 2H (deuteron) 0 = 160 E = eHE = 3He P = ‘H (proton) s = 32s KR = 84Kr LI = ‘Li T = 3H (triton) MG = 24Mg Conversion electron subshell Nuclear resonance fluorescence The angular distribution or correlation coefficients az and a,, (except for Pr polarization correlation, in which case a1 is tabulated). Un-
34
Atomic
Data and Nuclear
Data Tables,
Vol. 25, No. 1, January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
certainties in the last digit or digits are given in parentheses. DELTA
REFERENCE
The E2, M 1 mixing ratio, 6. Uncertainties are indicated according to the following notation (00 is the symbol used for m): a= +10* 1 + 10(l) +9cgc+12 +lO (+2, -1) -9<6=Z-12 -10 (+2, -1) 6 = +1oi; +lO (+OO, -5) 6 = + 1.0:;:; +l.O (+lO, -5) 161 > 10 lww The literature reference, given following the tables. If there are two or more independent experimental values of 6, an average value was computed and is designated as such in this column.
Following the reference is an indication of whether there are corresponding data for this transition to be found in a previous compilation of this series. No entry here means that no previous listings for this transition are to be found. The designations have the following meanings: One or more listings may be found in a previous compilation; the present value does not change the previous average value. One or more listings may be found in a previous compilation; the present value is included with the previous values in computing a new average value. The listings for this transition in previous compilations are incorrect, for the reasons discussed in Section IV. The previous data have been reanalyzed and averaged.
t
*
**
Sample Entries under Technique JG
A,A
JGG
P
GN
100
E
L/L
Angular distribution of gamma-ray, observed with Ge(Li) detector, following alpha-particle scattering (Coulomb excitation). Gamma-gamma angular correlation following proton capture; i.e., (p, yy) reaction, using Ge(Li) detectors. Gamma-gamma angular correlation (radioactive decay) observed using a Ge(Li)-NaI detector combination, with the gamma-ray in question measured in coincidence with the lOO-keV gamma-ray. Conversion coefficient measurement of L-subshell ratios.
35
Atomic
Data and Nuclear
Data Tables.
Vol
25. No. 1, January
1980
K.S.KRANE
TABLE
E2,
Ml Mixing Ratios, Supplement and Corrections, December 1979
I. Experimental Data on Angular Distributions and Mixing Ratios in Odd-Odd Supplement to ADNDT 22, 269 for A < 57. New Table for A > 57
Nuclei
See page 34 for Explanation
NUCLIOE
INITIAL LEVEL EIKEVJ
J
FINAL LEVEL EtKEVJ
GANNAJ
RAY EfKEVJ
T CCHNIPUE
K
40
2047
2-
BOO
2-
1247
JG
PsN
K
40
2047
2-
30
3-
2017
JG
PIN
K
40
2291
3-
4-
2291
J6
K
40
2398
4-
3-
2368
JG
K
40
23911
4-
0
4.
2390
VY
54
156
4t
a
3t
NY
54
368
5t
156
MY
54
1073
6+
366
MY
54
1925
7+
1073
MN
54
3244
9t
2657
CD
53
co
5.5
co
58
c7
58
53
0 30
A2
.470 -.I20
A4
(30) LZOJ
to.02
AVERAGE
11
-.a70
(40)
-0.64
(+49,-34J
79BECl
t
-.070
(30)
to.25 to.26
( I
790E41 AVERAGE
* *
J6
P.N
.19a
(501
-.OBrJ
(60)
-0.32
(12)
798E41
t
i5b
JG
A,PN
-.357
(aJ
.a00
(20)
-0.12 -0.24
( t
51 3J
791005 AVERAGE
* *
St
212
JS
A,PN
-0253
(0)
.ooo
(40)
0.00 I +O.Olbf+lT,-14)
2J
797005 AVERAGE
l l
5t
705
JG
ArPN
-.269
(101
.OlO
(30)
-0.02
(
21
791105
b+
a52
JG
A,PN
-.b40
(601
(501
-0.40
(15)
84
367
JG
AtPN
-.230
(40)
(60)
0.0
(
II
791005
-0.33
(
6)
708533
3)
72tlAbi
-.a30 .OOO
4J 3)
79Too5
4+
25
St
25
JR
0.N
Ll2
3+
53
4t
59
JS
PsN
-0120
150)
,060
(70)
-0.02
(
112
3t
2*
112
JG J6
PIN PIN
-.290
(401
.060
(501
to.04 to.02 to.030
I 2) I 2) (14)
JG JG
ArN PIN
-.290
+o.oil) 0.00 +0.003
(23) ( 1) ( 91
AVERAGE
laoI
to.350 to.03 to.038
(25) f 2J (16)
726El4 756?05 AVERA6E
(12OJ
to. 109 to.07 40.076
145) ( 2) (181
758905 AVERAGE
to.02
(
61
75BR05
I
II
75BRO5
366
0
3t
0
2t
366
(40)
321
JG JG
AsN PIN
-.200
(60)
c3
58
457
44
25
5t
432
J6 JG
AsN PtN
-.330
00)
JG
P-N
Cl
t i 6
130)
4t
60
79BE41 79BE41
.210
53
C7
bJ 2J
0.00
PeN
5t
50
f ( (
to.05
f’.N
374
53
(201
(30%
5a
c3
-.040
(20)
REFEREWE
.500
CJ
Cl
.a30
OELTA
1040
3t
457
4,
1+
0
2t
277
4t
0
54
60
289
3t
59
'23
60
436
5t
277
C3
60
436
5,
Cl
60
506
34
CO
60
543
2+
G3
60
614
3t
CO
60
786
It
Cl
60
4+
1435
1005
563
.QOO
-.020
JG
P-N
277
JG
A*P
-.220
(i60)
.oso
2+
230
JG
ArP
-.220
(60)
44
159
JC
ArP
-.160
(501
0
5+
436
JG
ArP
.390
(60)
59
24
446
JG
A.P
-.190
(100)
3+
254
JG
ASP
-.090
(601
2+
556
JG
ArP
-.290
(7OJ
269
34
49a
JG
AtP
-.46lJ
(170)
614
f+
392
JC
ASP
-.230
(100)
209 59
1435
.040
(60)
0.00
72HAbl 758105 AVERAGE 72GEl4
758RO5
72GEl4
( 61
(1701
to.02
-.OBO
(60)
to.04
-.060
(60)
40.06
(601
-0.06
(+31,-29)
7bTA03
(120)
to.06
(
761103
(70)
to.02
(12)
767103
-.iso
(6OI
-0.03
(
6J
7bTAO3
-.020
l19OJ
-0.01)
I
91
7bTAO3
(LiOJ
to.00
I
6)
7bTAO3
. 070 -.050 .a00
,140
(45
.-4
( 4)
7J
IOTA03 J
76lAO3 781103
t New value which does not change previous average * New value which changes previous average
36
Atomic
Data and N&ear
Data Tables,
Vol. 25, No. 1,January
1960
K. S. KRANE
TABLE
I. Experimental Data on Angular Distributions and Mixing Ratios in Odd-Odd Supplement to ADNDT 22, 269 for A < 57. New Table for A > 57 See page 34 for Explanation
INITIIL NUCLIOL
LEVEL E(KEV)
.I
C3
62
243
2+
CJ
62
260
24
CU
62
426
3+
cu
62
645
2*
CU
62
675
3*
“,J
62
675
3,
CU
62
728
2+
C'J
62
720
2*
CJ
62
756
Cd
64
159
3J
64
270
41
14
243
JG
2*
247
JG
2*
305
JS
it
645
J6
243
2+
432
JC
41
24
634
56
41 0
3*
159
1*
344
JG JP
2*
203
7ODA15
(40)
21
TOOAl
130)
-.030
-.570
t*4
,-6
I
70DAI.S
100)
-0.16
(60)
to.05
I
5)
700415
t100)
l 0.49
f
9)
7ODAl5
0.0
t
3)
7OOAi5
l o.oi
I
2)
-0.036
(41)
l 0.020 -0.02 to.12 -0.007
(35 I I 1) t 4) t 8)
700AOl 71ltI15 7iWEO2 732AO7
-0.025 -0.020 -0.02
7OOAOl 71HIi5 73LAO7
l 0.10
(25) 130) I 2) t 2)
+o.oi7
(111
AVERAGE
-.340 -.350
(301 130)
-.290
(10)
-.020 .oso
.ooo
-.340 -.290
(30) (20)
-.030 .030
-.350
(10)
.020
-.020
.OllJ
(40) (30)
(10) (30) (20)
(101
(20)
-.OlO
120)
l 0.10
(10)
(10)
,020
(20)
-0.12 -0.14 -0.13
t
190)
-0.040
(35) (12) (12)
-.420
(101
-0.049 0.000
,020
(10)
*Q.Ob -0.019
I 3) t 0)
-.280
(20)
,020
(20)
*a.01
I
l 0.24
(17)
l 0*05
IlO)
*a.02 l 0.03
I
t 6)
AVERAGE
3*
212
JG
609
24
276
2+
331
56
CU
64
609
2*
159
2+
450
JG JG
l 400
100)
.150
110)
-.
010
t 20)
00)
-0.03
.OlO
(10)
l 0.30 l 0.01
t i I
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7OD401 76GRl3 AVERAGE
-0.11
111))
7bGi13
-0.4
2+
362
3t
377
JG
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120)
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(30)
739
2*
270
2+
461
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1701
CJ
64
64
746
096
34
3*
2?8
270
2*
2*
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JO JG
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JG JG
J6 JG
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(10)
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170)
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(90)
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t 1)
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76GRl3
-0.30
AVERAGE
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7OOAOi
-0.29
-0.18
(160~
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896
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159
2*
737
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I301
Data and Nuclear
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t
41
AVERAGE
l 0.040 l o.oo l O.Ob3
(35) t 3) (23)
7ODAOi AVERAGE
t 1) (12) I 1)
7ODAOi ICC213 AVERAGE
0.0 .loo
(11)
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l 1.3 0.0
CU
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3)
7OOAOl 7lMIiS llWiO2 76G%13 AVER4GE
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CJ
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739
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4*
b4
7)
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-.100
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CJ
(111 I 6)
7bGR13 AVERAGE
(60)
64
609
4)
t
(60)
64
1,
t
-0.12
-.400 -.430
cu
0
-0.33
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0
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1
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0
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0
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t*2
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0
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(40)
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64
609
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1+
cu
b4
.OOO
a
1+
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362
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GANNARAY E tKEV)
2*
64
64
FINAL LEVEL EIKEV)
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CU
CJ
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
l 0.40
Oata Tables.
(13)
766Rl3
76GR13
Vol. 25. No. 1, January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE I. Experimental Data on Angular Distributions and Mixing Ratios in Odd-Odd Nuclei Supplement to ADNDT 22, 269 for A < 57. New Table for A > 57 See page 34 for Explanation INITIAL
NUCLIDE
LEVEL E(KEYl
J
FINAL LEVEL EtKEV)
GA
66
234
2+
44
GA
bb
291
2+
GA
66
335
24
GA
66
335
2t
GA
66
335
GA
66
GA
J
GAIWARAY E(KEV)
7 ECNNLPUE
A.?
A4
OiLTA
REFERENCE
i+
190
JG
PsN
-.170
(30)
to.11
4 31
7lNAl5
109
it
182
JG
PIN
-.030
(608
to.20
( 41
7lNAl5
109
1+
22b
JG
PeN
-0200
f401
71NAl5
66
2+
269
JG
PIN
2*
44
1+
291
JG
PA
382
It
109
1+
273
JG
PeN
bb
382
lt
44
1+
338
JG
PeN
GA
66
401
2+
2+
261
JG
PeN
140
GA
66
460
24
44
1+
416
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PsN
GA
66
531
24
44
14
487
JG
PIN
GA
68
175
24
0
I*
175
JG
PIN
;A
68
321
l+
0
it
321
JG
PIN
64
66
315
24
0
it
315
JG
PsN
GA
68
376
3t
2+
201
JG
PeN
a* a5
76
142
2-
l-
142
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76
254
3-
142
2-
112
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76
492
4-
254
3-
238
82
76
585
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1016
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309
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469
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to.09
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to.04
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(
9)
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to.20
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81
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to.03
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31
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to.87
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21
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to.05
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SI
688103
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(271
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(35)
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(20)
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(40)
to.25
(
5)
68EIO3
Ar3N
-.ldO
(301
.a00
(801
0.00
(
31
778El8
A.3N
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(301
-.ObO
(IJO
0.00
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3)
770El8
JG
A.3N
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(601
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JG
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-.500
(80)
Ar3N
-.650
(130)
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(1001
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(25)
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(
7TBEld
(291
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(501
to.10
(
4)
770008
5)
77DOOB
81
6lHE09 74KL06 AVERAGE
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431
JG
37
2-
244
JG
P*N
-.281
129)
85
5-
223
JG
PIN
-.274
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0
it
469
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PIN
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0
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565
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5)
(
( 6) 5)
NB
92
286
3t
136
2+
150
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AsN
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(101
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(14)
77OAOl
NB
92
390
3-
226
2-
lb4
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A*N
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. 000
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NB
92
481
4+
357
5+
123
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A*N
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to.044
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3+
195
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(20)
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7+
501
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(301
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t
77OAOi
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Atomic
Data and Nuclear
Na
92
401
4+
NB
92
501
b+
0
Na
92
i415
44
286
3+
1129
JG
PsN
NB
92
1422
4-
390
3-
1033
JG
PeN
-1.000
38
Oata Tables.
4)
770401
Vol. 25, No. 1, January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE I. Experimental Data on Angular Distributions and Mixing Ratios in Odd-Odd Nuclei Supplement to ADNDT 22, 269 for A < 57. New Table for A > 57 Seepage 34 for Explanation INITIAL NUCLIOE
LEVEL ElKEVt
J
FINAL LEVEL EIKEV)
J
GrItMARAY ?lKEV)
TECHNIPUE
44
A2
Ma
Q4
302
2-
140
2-
161
JG
P.N
MB
94
334
2+
41
3+
293
JG
P.N
-.026
(28)
N3
94
396
3-
140
2-
256
JO
PvN
-.250
t22t
Ha
94
785
3-
302
2-
483
J&
p. ti
-.030
1281
Ha
94
793
3+
334
2+
459
J6
J’*N
-.148
129)
RH
100
159
1*
2,
84
4;
108
193
75
1,
0
1+
193
NH GG NM
,007
75 15 75
JG
P.N
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,113
419)
.180 .173
1111 (4)
-.006
12)
,004
REFERENCE
OELTA
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to.37
1131
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f
7)
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f
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7)
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65EV05 6511434 TIRE06 4 VERL6i
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AC
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0
1*
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0
1*
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PIN
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IIOD
40.105
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IN
LO8
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34
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39
Atomic
Data and Nuclear
Data Tables.
r-5
1 8)
Vol
790001 AVERAGE
1
75LL21
68ZHO4
25. No. 1. January
1980
K. S. KRANE
TABLE
NUCLI
OE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
I. Experimental Data on Angular Distributions and Mixing Ratios in Odd-Odd Supplement to ADNDT 22, 269 for A < 57. New Table for A > 57 See page 34 for Explanation
INfrIlL LEVEL EIKEVI
J
100
2-
134
l-
fINAL LEVEL EfKEv)
J
GAHHARAY E(KEV)
59
3-
Cl
NN
34
.073
(10)
100
2-
34
NM NN NW
100 100 100
-.226
(30)
-.250 -.270
(1001 138)
NM NN NN NN MN NN NN
80 80 80 80 80 80 80
-.250 -.lOZ
(1001
TECHNIQUE
A2
A4
-.012
.018
DELTA
l-
H3
156
82
1+
TN
162
45
t-
T8
160
106
2-
80
l-
53
2+
30
E
0
i-
45
E
64
l-
42
E
52
-.168
(201 (40) (30)
-.180
(40)
-.I.?0
to.046
(23)
69NA24
130)
-0.022 0.0
(26) t 1) (34) (20)
63BHll
+0.011)
-.130
(301
-.18b
(5)
.009 .050 .022 ,070
REFERENCE
(19)
-0.007 134
150) (60) (77) 173)
0.00 +o.io +0.09
(
7)
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3)
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(
9)
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0.00
(16)
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l-
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K*L
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tt3
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2-
67
JC
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3t
0
2*
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184
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0
3-
105
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67GUl7 69MA24 73SIOl 750A32 AVERAGE
(
lb8
170
668Ell
0.033
13 160
fli
63IWO2 632UO2
( 3) (20) (27) t 2) ( 3) ( 3)
to.043 to.049
L/L
63LY02 67GUl7 AVERAGL
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E
0
Nuclei
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0.093 to.093 to.093
(15)
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tll Ml
40
Atomic
Data and Nuclear
1
bIBAl
8
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1
670Al7 67BA17
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)
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r-7 r-5 (25)
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675106 69KAt9 AVERAGE
( 51 4 5) t 5)
(
4)
t 4) (14) ( 4)
DataTables,
69KA19
75KQll AVERAGE
7OAKO2
73liUO6 73K801 AVERAIX
Vol. 25, No. 1, January
1980
K. S. KRANE
TABLE
LEVEL E(KEV)
Ml Mixing Ratios, Supplement and Corrections, December 1979
I. Experimental Data on Angular Distributions and Mixing Ratios in Odd-Odd Supplement to ADNDT 22, 269 for A < 57. New Table for A > 57 See page 34 for Explanation
INITIfiL NUCLIOE
E2,
J
3E
168
64
Z-
2:
188
94
3-
RI
188
PJ
194
291
35 81
FINAL LEVEL E(KEV)
J
0 64
6ANNARAY EIKEVI
A2
TECHNIQUE
A4
DELTA
I-
64
E
L/L
II.063
2-
31
E
L/L
0.14
(+3
l-
0
l-
2-
0
l-
291
35
Nuclei
REFERENCE
( 41 *-4
E
K
0.48
(*lb.-17)
E
L
0.14
(43
68SUOl 6BSUOl
s-4
I
77P420
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194
3-
35
2-
45
E
I
3)
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276
6,
107
54
171
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P.ZN
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(40)
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2)
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407
81
245
74
162
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r
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40
AN AN AN AN
6051
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1121
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TL
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1L
20E
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208
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5+
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452
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6051
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S7b8 5768
AN AN
5768 5768
AN AN
5606 5bOb
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I+1
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to.062 ,015
(18)
(42) (211
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135)
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(23) (121
to.079 l 0.071 40.23 to.23 .0.23
I
Atomic
Data and Nuclear
7)
(*CO,-14) (13) (+lZ.-101
-0.043
-O.bO -O.ObO
41
r-2
DataTables.
1101 ( 41 ( 4)
Vol.25,
I
77KPO4
AVERAGE 63CO28 b6KLZZ AVERAGE b3CO21 66KLZl AVERLGE b3CO28 b6KL ZZ AVERAGE
No. l.Januafy
1980
K. S. KRANE
TABLE
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22,269 (A < 57); 20, 211 (58 6 A s-150); 16, 387 (A 2 152) See page 34 for Explanation
IkfTIAL LE YE1
NUCLIDE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
FIWL LEVEL
EIKEVI
J
EtKEVl
GAlMAJ
RAY i (KEVB
TECHNIQUE
A2
A4
OELTA
REFERENCE
SI
2%
7798
3,
6276
3+
1522
JG
P
-.030
120)
-.040
(201
+3.1 t3.0
( (
SI
28
9310
34
6276
3,
3034
JG
P
-.ObO
(30)
-.oaa
(30)
-0.18
(20)
7aoILoe
Ch
42
6409
8-
6145
I-
-.210 -.240
(301 (20)
-.o*o
(30)
( 2J ( 2) tici
7bEGOt 78PROt
264
JG JG
0*2P A.P
6555
Y-
815
JG
b-
3534
5-
531
JG
4688
7+
3886
bt
728
JGG
A,P
5.8
4668
It
3597
6+
1072
JGG
A.P
FE
bJ
2305
2+
2+
1401
JG
f.P
MI
62
2302
2+
24
1129
GN
1173
-.310
(60)
ZN
64
1799
2+
JG JG JG
O,PZM ArN O,PZN
-.090 -.080 -.150
(301
CA
4.2
7369
CR
46
4065
FE
58
FS
ZN
b4
2794
lo-
2+
ZN
64
2979
3*
ZN
64
2979
3+
ZY
64
3005
24
ZN ZN
b4
3005
2,
64
3078
4+
(14)
20
.017
.150
ArN
112)
(10) (20)
120)
7bSIO2
(
3J
78SIO2
5)
(
.llO
(10)
.020
(
(40) (40)
-.ObO -.OlO
(10) (40)
-0.4
.250 .ooo
-0.19
( 0)
(40)
-0.54 -0.33
(12)
A.N
JG JG JG
A*N LXs2N
-.020
(10)
-3.3
(+26.-l(1)
-.200
(30)
-.OlO
(50)
-0.05
(tb
,220
(701
*cr.5
1+29.-13)
-. 020 -.oeo -.030
169)
+O.Ob
(30) (16)
(50) (20)
40.032
-.lOO
(60)
-.OlO
(60)
-.171
(30) (15)
-*120 ,007
(401 (2)
(lb)
.004
(18)
(bOJ
-.200 -.I32
JG JG JG
C.2P A.2N C.ZP
JG
Ct2P
AeP
-.140
.3b6
42
(50)
Atomic
Data and Nuclear
1-8
IONE 78SIO2 7dYiiS AVERAGE
79YA23
)
760il23
77HD20
( 4) (22) ( 2) (14)
74NOO8 77MO20 790Ei2 AVERAGE
to.04 to.052
t 4) (20) ( 2J (13)
74NOO b 77l9020 79oi12 AVERAGE
to.5
(
l 0.01 l 0.025 40.04
l 0.067
Data Tables.
2)
l
7.9SIO2
( bJ
(10)
-.lSO
8,PN
l l
76SIO2
1)
-.lOO
C*2P As2N L112N
value average
78SIOP
3)
(10)
JG
AVERAGE
5J
-0.06
772
l
(
to.6
l *
77ALI4 IO.%02 78WEiJ
(
(301
l *
t
to.7
(30)
**
7bCL31
(20)
,050
2013
average incorrect previous
( 51
,030
JG JG JG
changes previous replaces previous does not change
,010
(50) ( 7J ( 3)
(301
4t
400
-3.3 -1.3 -3.5
(30)
2+
I-
.a00
)
.050
JG
234
4054
(10) (20)
(+20.-7
.190
1206
5-
7-
+3.0
ArN
24
171
(1201
to.26
AeN
b-
77YAlO
(20)
JG
3649
3883
(*36r-15)
,100
1937
b-
f-
77CA26
(20)
2+
-.260
.070
3803
77CA20
t*20*-15)
.050
ArN
A.2N
68
(*lb,-10)
-0.10
(20)
JG
JG
6:
-0.06
++4.3
* s
78PRO2
79EK03
-0.5 -.OlO
AVfRAGE
(00)
,040
1180
762
1778
,260
(141
780100 AUERIGE
4)
(101
2,
2+
68
956
-.a33
(
-0.05
1016
GE
which which which
,120
2*
b-
value value value
991 2306
(12)
JG
3610
* New ** New t New
1799
JG
-.a17
NI,PN
152
68
4454
991
1802
-0.16
5-
ZY
68
1799
i?+
a07
(60)
3458
24
GE
991
z+
.OlO
JG
lb94
4054
991
450)
736
66
68
1173
-.450
2,
63
GE
824
ArP
0.00 0.00 0*000
YJ 0)
790El2
Vol. 25. NO. 1. January
1990
K. S. KRANE
TABLE
NUCLIOE
II. Exoerimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplemknt to ADNDT 22, 26<(A -c 57); 20, 211 (58 6 A sm 150); 16, 387 (A b 152) See page 34 for Explanation
IWI7IAL
FINAL
LEVEL ElKEVb
J
LEVEL ElKEV)
J
GAUSARAV ElKEV)
834
2,
b30
JG
A.2N
2,
615
JG
C.2N
2,
698
JG
GE
72
1464
2*
SE
74
1384
3*
KQ
82
I*74
2+
1269
776
ua
62
2094
3,
UP
.32
2094
3,
ZQ
80
1819
24
ZQ
88
2802
5-
La.
a0
3392
6+
2006
24
98
bbl4
9+
3392
ZQ
92
1847
2*
934
2*
1474 T76
2+
79UOOl
1100~
l 0.3
(
79PIO5
-2.7
1 3)
77CA26
t t t
HT
1)
J6
HT
l 2.2
1 4)
77CA26
ttl
t3.1
1 61
77CA26
A.2N
.215
157)
-.037
(64)
-0.10
1131
79NUO2
2540
5-
262
JG
At2N
,267
133)
-.004
(4%
WI.27
(60)
79NU02
o+
503
JG
A.2N
17)
-.015
64
1222
JG
A.2N
913
GN JG
94
1671
2+
918
2+
za
94
2150
2+
91.3
24
NO
94
2872
b+
6,
b*
1*20~-101
JG
za
3339
030
-0.35
7bl
2,
94
-.
1501
2,
934
no
1100)
,030
1057
2+
6+
.390
(40)
REFERENCE
JG
2066
3166
-.017
DELTA
1318
92
94
619
A4
A2
2*
zi
YD
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
2423
2423
2423
b+
64
1132
.431 -.655
934 NsN
,255 ,090
JG
NqN
JG
NsN
1232
JG
NvN
449
JG GN GN
MT 703 703
. 170
GN GN
752
742
‘316
-.210
-.300
137)
124) 1201
.084
-.032
1101
-0.06
1 9)
79NU02
153)
-0.25
1 7)
79NU02
13.3)
-O.O131+4lr-241 -0.13 1 5) l 0.016 (13)
78CDOl taGLO AVERAGE
1101
-1.04
(111
74GLO4
-D.22
110)
7BGLO4
(401
-.I30
1601
-1.7
1*14*-8
)
TOGLO
.ooo -.a45
115) 145)
0.0 -0.04 +0.07 r0.05
1*2 1tl3
t )
.164
1101 1221
77BEl3 77BE38 7 9KA22 AVERAGE
703 703
.014 .139
120) 180)
.002 -.a74
1251 184)
+lJ.65 to.14 to.59
l+Zb,-48) ( 7)
JG GN GN
MT 703 703
-0.07
1+7
.l71 .206
(7) 119)
,010 -.020
120) (28)
l 0.04 -0.17 -0.01
.-1 ,-4 1 9) t 4)
(15)
,-5 1 4) (*17,-25) 1 3)
I
2755
b+
2441
b+
314
JG
MT
-0.5 -0.1
1 3) 1 2)
NO
96
2755
6+
2438
5,
3tb
JG
HT
+0.3
I
?I)
96
1930
2*
632
2+
1098
JG
P.P
-4.2
1+22.-14)
74A15
RU
96
2286
2+
632
2,
1453
J&
P.P
l 0.03
1101
79LAl5
QU
96
2578
2+
2,
647
JG
P.P
42.0
t New value which does not change previous average * New value which changes previous average
43
Atomic
Data and Nuclear
Data Tables.
75SA11) AVERA6E
21
,
* *
75SAl8
)
Vol
l
776Ei9 77BE3.5 79KA22 ~-~ AVERAGE
96
1+c
* *
77BE36 79KA22 AVERAGE
UO
1930
t
79LAlS
25. No. 1, January
1980
K. S. KRANE
TABLE
NUCLIDE
RU
98
RU
100
E2,
Ml Mixing Ratios, Supplement and Corrections, December 1979
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT22, 269 (A < 57);20,211(58 6 A c lS0);16,387(A 2 152) See page 34 for Explanation
INITIAL LEVEL E (KEY1
J
FINAL LEVEL E (KEV)
i4is
2t
b52
2,
762
1362
2t
540
2+
822
2u
100
iam1
3*
RU
100
1881
3+
I362
2+ 2,
540
9
519 i342
JC
P.P
NN
1107
zi GN GN
1553 540 1107 1553
GN
1362
NH GN GN GM
540 540 568 1034
GN
1930
100
291b
2-
RU
100
3070
1+
540
2,
2530
GN
540
PO
102
1534
2+
556
2+
976
JG
PD
102
IY44
24
556
24
1388
JG
PO
102
2112
3+
556
2+
1556
RU
104
2+
350
2+
535
2-
446
1 U2iNIQUE
zu
893
246
J
tAtIMPRAV f(KEV)
A2
.032 .I15 -.249 .lOO .063
.I49
A4
(39) (171 (241 (151 (24)
(70)
.224 .I98 -.I45
(52) (76) (791
-.I90
(36)
JO
104
106
2265
1128
4+
2+
1324
512
4,
2t
942
bib
IO6
155e
34
PO
IO6
1558
3+
PO
PO
106
106
1562
1932
t+
4+
ii28 512
512
JS
P+P
is
GG
358
GN
556
GN GN
556 556
GN GN
556 556
GN
556
56 GH
-.052
-.440 .20?
-.I90 .099 .0110
-.I00
(III
,314 -.092
.2?0
(19) (301
(60)
(00)
-36
(+54.-14~ 1+6
-3.2
1229
SN
512
2+
1046
JG JO GN GN
c,K 512
4+
703
GM GN JG
J6 6N
1199
411
(*IO,-3
+I6
(+22,-b
B 730128 1 AVERAGE
(150)
-2.8
t+31,-3
)
7 80128
. 004 -.020
(621 (40)
-0.90 +2*5
(221 (*I?,-8 (16)
I
720KOI 760126 AVERAGE
(40) (201
.058 -.OlO
(78) (201
+0.27 +0.32 to.31
(301
-.060
(90)
-0.87
(6)
,312
(12)
(40) (14) (37)
-.069
.066 ,396
(51 (17)
.03?
44
(29)
.OIO
(441
(50)
,010
(28) (65)
.023 ,042
(9) (31)
1108 ( 51 t 4)
to.93
(,13*-20)
+0.74
(22,
Data and Nuclear
l l
* l
* l l l l
I)
77RUOI 771101 AVERAGE
I
77ffOi
f
t 2) (131 (60) I 6) ( 2)
75SC36 76tRi2 77TIOI 77rzoi AVERAGE
iI*
+0.238 ( 61 +0.234~+37.-31~ to.16 t 11 +0.20 t II
77OK03 770K03 77RllOd AVERAGE
l l
-1.1
75s:3e 77llOl AVERAGE
-2.3 -1.8
(17) i+30,-3
-3.1 -4.5 -4.75 -2.4 -3.1
Atomic
78BA20 AVERAGE
(201
.I
(568
72OKOI 780A28 AVERAGE
~+00,-18t
-9.4
.I36
l
1)
7esuo4
-.220
.020 -.346 -.130
tll 522
41
(311 (20)
-.018
512 1062 It1
78SUO4 AVERAGE
I
(IIOI
(19)
.019
,-4 (
*
77LAI6
-18
-36 .OlS
5::
430
1050
J
77LAI6
2+
2*
,-8
??LAIb
-11.4 PO
(+IO,-iI~ t+9
*
68KA04 768129 700129 7 WA29 AVERAGE
(+?3.-268
(30)
PO
1
8
(422,~12)
(+21.-37)
-.I40
856
t+12.-2
(+Ib+-2
46.1
55b
4+
to.5 to.5 +0.41 +0.54 +0.52
*IO.4
GN
1324
(75) (78) (86) (40)
* * ' *
7081129
PIP
71b
4+
(+18r-IPt
p.p
2t
2182
+0.33
7 .%A29
556
104
-.030 .049 .O?I ,020
(1101
76BAt9
2+
PD
.I00
2)
5)
1342
1324
1
s-6 (
41
104
4+
(+9
(
PO
2082
+3.9 43.4
68KA04 68KA04 7881129 7.901129 700129 AVERAGE
t
117)
104
1 I
-0.64
-.410
PO
1+33.-15) (43 .-I (+8 s-6 ( 41
-4.4
358
159
+3.2 43.4 +3.5
(93)
GG
1265
tb.2
(241 (38) (33) (39)
(26)
884
4+
(40)
,011 .315 -.031 ,035
-.I28
2t
2+
-.026
-.021
358
556
79LAI5
(115)
3+
St
(+39.-25)
(11)
1242
102I
+13.4
.443
104
104
REFERENCE
.06?
RU
PO
OELTA
I
( 4) ( 21 t 4)
Data Tabtea.
Vol. 25, No. 1, Janualy
l l
l *
** ** *
l
l
*
1960
K. S. KRANE
TABLE
NUCLIOt
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22, 269 (A < 57); 20, 211 (58 6 A c 150); 16, 387 (iz 2 152) See page 34 for Explanation
INITIAL LEVkL E(KEVI
J
FINAL LEVEL EtKEVJ
J
PO
106
23Ob
C-
2084
3-
PD
106
2309
2*
1128
24
GANNARAV E(KEVJ
222 lllil
TECHNIQUE
A4
A2
GM
512
-.118
GN
1128
.293
512
.llO
(241 (751
-.003 ,109 -.003
DELTA
(481
-0.08
t
(140)
-0.06
(12i
(53)
l 0.18
(
PO
106
2309
24
512
2+
1797
GN
PO
106
2351
4+
1558
3+
793
JG GN
1046
.I84
(48)
,114
(92)
GN
512
,321
(501
.033
(96)
(27)
HT
106
2439
2,
512
2,
1927
PO
106
2705
1,
512
2*
2193
GN
512
PO
156
2757
5c
1229
4,
1528
JG GN
HT 512
?O 106
2903
2+
512
2,
2391
GN
512
PO
106
2918
2+
512
2,
2406
GN
512
PO
106
3055
1*
512
2*
2543
GN
512
CO 106
2105
4,
4+
611
JG JG
O.XN C13N
C,3N
1494
-.048
(63)
.262
(52)
.300
(28)
-.259
(72)
-.068
(123)
8)
-19
(*oo*-llJ (*ll,-21)
77DK03 75SC38 771101 AVERAGE
-0.10
t*9 (+Y
r-8 1-B
J J
770K03 AVERAGE
-0.17
(+b
,-5
J
770K03
-2.3 -2.35 -2.3
( 21 180) ( 2)
-0.02
(
(102I
81
.Oll
(54)
-0.07
(1381
l 0.01
(
74
77DKO3
(40) (21)
-0.31 -0.34 -0.33
( ( (
61 41 3J
78SlOl TYSAOI AVERAGE
t+5
.-4
77OKO3 I
77OKO3
.134
(31)
,116
(15)
.050 .033
(26)
,047
(26)
-0.58
(12f
79SAOl
(50)
,040
(80)
-0.18
(
79SAOl
(90)
.OYO
(90)
-0.29
(17)
79SAOl
.230
(120)
-0.39
115J
78S701
$3
106
2331
5+
2105
tt
226
JG
CD
106
2331
5*
1494
4,
837
JG
C.3N
C3
106
2925
b+
2492
b+
433
JG
C.3N
CO 106
3085
7+
2492
6,
593
JG
0, XN
-.610
(101
-.790 -.460 .170
5)
CO 106
3084
7,
2503
6+
581
JG
C13N
-.440
(50)
-.OlO
(701
-0.16
(
(0
7YSAOl
CD
106
3127
I+
2503
6,
624
JG
C13N
-.lbO
(80)
,100
(ISOJ
l 0.04
(
6)
79SAOl
CD
106
3320
6-
2629
5-
691
JP JS
OeXN C13N
.504
(17)
,117
(19)
.0.58 to.71 +0.70
122) t 7J t 7)
(60)
.ozo
(1001
-0.02
(
-.ObO
(70)
l 0.02
(23)
79SAOl
.035
(14)
40.15
( 1)
79sAOl
(2101
-0.37
(23)
79SAOl
CD
78SlOi 795101 AVERAGE
106
3367
8+
3084
I+
283
JG
C.3N
-.lSO
GD 106
3367
8+
3044
04
323
JG
C.3N
.300
(SO)
GO 106
3679
9-
3508
8-
171
JG
Cs3h
.ooo
(15)
C3 106
4436
lO+
4121
9+
315
JG
C13N
-.520
(1601
CO 106
5253
13,
4660
573
JG
C.3h
-.502
(171
.015
(18)
-0.035
(15)
7YSAOl
co
100
2975
b-
2601
5-
374
JG
OIXh
.4b3
(30)
.072
(27)
+0.56
(
6J
78SlOl
c3
110
1476
2+
2,
818
.376 -.051
IlbJ (19)
,231
(211 (25)
-1.42 -1.5
(
9)
-.018
(+20,-b
.416
(41)
,075
(58)
-1.25 -1.29
( 5) (*22,-10) ( CJ
-a.44 -0.6 -0.50 -0.7 -0.85 -0.50
t+ft ,-4 (412,-Z (45 r-4 ( 3J (25) I 8)
-1.65 -1.3
( 9) t+e .-4 (+22.-6 ( 41
658
12,
1: JG GN
CD
CD
110
110
2lb2
2162
3+
3t
1542
1476
4*
24
620
686
658 764 HT 658
G6 66 66 JG GM
658 764 885 Hf I85
J6 G6 GM
HT 764 764
-.140
-1.2
.198 .O% .231
{25J (23) (231
-.027 .048 -.003
(311 (31) (32)
.3%
(91)
.050
(130)
-.I117 -.222
(14) (87)
-.037
(181
-.076
(1151
-1.5 -1.76
45
Atomic
Data and Nuclear
Data Tables,
* *
75SC38 777101 AVERAGE
,083
-.043
t
77OKO3
l+11.-21)
-0.10
771101
4)
-7.0 -7.0
PO
REFERENCE
6)
79SAOl
J
J 1 J
J 1
77RULl 77RULT 78JtAD7 7WE03 AVERAGE 77RUZl 77RUZT 77RUZl 7lYAO7 7 9VE03 AVERA6E tan107 77RUZT 79VZO3 AVERASE
Vol. 25. NO. 1, January
L
x * ii l * l i * * l l l l c
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22, 269 (A c 57); 20, 211 (58 =ZA c-150); 16, 387 (A 2 152) See page 34 for Explanation
INITIAL NJCLI
OE
LEYEL EtKEY)
CJ
CD
CD
Cl
110
110
110
110
2162
2220
2927
2927
J 3+
4+
5+
5+
FINAL LEVEL EtKEVJ
656
GAHNARAI J 2+
1542
4+
b+
2400
2220
4t
1505
676
447
707
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110
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l
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l
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( 28 ( 4) t 2)
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b
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(t5
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)
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f+5
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)
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s-9
I
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r-3 4)
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(30) (401
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-.29Q -.230
(50) (20)
932
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1293
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(201
613
J6 JS
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-.17Q -.060
(40)
-5 -12 -7
(tb
JG
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-.I20
140)
-10 -10
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I
(tOO.-5
1 AVERAGE
92b
46
.370
160)
Atomic
Data and Nuclear
tt5 .-2 (too.-7
Date fables.
r-3
* l
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JG JG
t
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l l
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24
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558
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127)
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112)
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SY 116
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(16) (16)
650
1402
li6l
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0011
2t
2+
REFERENCE
-.2Q9
(12)
556
514
DELIA
.248 .26i
N*N
514
A4
650 685
JG
3+
120
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395
7
1916
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116
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tffiH~tPuE
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3%:::
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79K101
I 7 8lE31 I 798907 # AVERAGE
760E31
Vol. 25, No. 1, January
* l
1980
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
K. S. KRANE
TABLE
NUCLIDE
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22, 269 (A < 57); 20, 211 (58 s A G 150); 16, 387 (A z 152) See page 34 for Explanation
INITIAL
FINAL
LEVEL kL(KEVl
LEVEL ElKEVJ
J
J
GAIWARAV ElKEVJ
1013
140)
l 4
1+2
998
JG
NeN
.140
150)
l 3.0
(412.-6
2+
723
6N
603
.lOl
(5)
.2a3
17~
-3.65
(14)
2,
714
GN
723
.143
(141
,042
li7J
tl.13 +1.26
(+17.-221 (+lS,-181
+tl tb.9
(*I v-3 1+42.-17)
2+
1140
2,
SN
124
2130
2+
1132
24
TE
124
1326
24
603
TE
124
2039
2+
1326
Xi
xz
8A
94
126
128
134
134
880
969
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354
2+
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2+
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3+
34
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134
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44
389
443
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1168 605 1401
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492
491
526
563
475
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GN
140
2348
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2+
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354
389
-.I60
-.133
140)
1131
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(50)
1301
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144 1+4
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146
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613
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140) 160)
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GN GG GG
802 605
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tbJ
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19) (12)
802
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(8) 110)
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1141
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lib8
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123)
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131)
605
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605 795
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130)
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b
780.531
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1+23,-10) c+a2,-a 1*23.-181
r-3
t
79SH08 79SH06 AVERAGE
8
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443
GG
412.6
v-1
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CE
REFERENCE
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2153
84b
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122
124
44
A2
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XI
TECHNIQUE
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)
J
l
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l
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;
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t
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736AlO AVERLGE
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142)
to.82 +1.3
(19) 1 38
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191
40.27 tO.24 40.275
1 2) 1 CJ
110)
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to.35
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II
llll
1597
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l
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140
2412
3+
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816
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925
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0.00 +0.09
1 6) 1 3J
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CE
NO
140
14b
2548
1471
lt
1597
2*
2*
454
2*
951
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1597
1017
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454
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J
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t+sa,-3
I
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J
7afK03
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1778
3+
454
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1324
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454
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146
1768
2+
454
2+
1334
GM
454
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(140)
.220
(260)
-1.4
1+10,-a
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1906
2+
454
2+
1452
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454
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1+5b.-42)
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146
2056
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llb2
3-
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550
141)
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I
sn
140
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288
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550 726
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to.069
127) (28) 119)
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-.476 .164 .155
(16~ 16) 17)
-.207 .ooa .007
l o. 108 +0.0(14
47
Atomic
Data and Nuclear
Data Tables,
91
l
l l
7anco3
77K414 77KA14 77KA14 AVERAGE
Vol. 25, NO. 1. January
a a l
1980
K. S. KRANE
TABLE
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22, 269 (A < 57); 20, 211 (58 G A s 150); 16, 387 (A 1 152) See page 34for Explanation
INITIAL NUCLLDt
SY
SY
155
150
EL 441 Mixing Ratios, Supplement and Corrections, December 1979
FINAL
LEVtL tlKEVJ
J
1046
2+
1194
LEVEL LtKEVJ
24
334
334
GAblNARAT J
TEWNIPUE
A2
A4
DELTA
REFERENCE
EtKEVJ
2+
2t
712
'360
GN GN
334 334
GN
334
,055 .a88 -.247
(341 134)
,330
.264
(60) 154)
(42)
.263
(63)
-5.0
(+20*-12J
-4.7 -4.5
t+12.-9 I+4
t3.4 +3.b
(168
t2.0
(
77HDOI
w-3
J J
77N009 AVERAGE
(+16,-111 (*B t-6
J
AVERASE
77n009
l
I) * l l
to
150
1431
24
638
2t
GD
150
1519
2t
636
2t
880
JG
Hf
-.019
123)
t7
G3
150
1700
4+
1286
4t
412
JS
ttr
-.I90
i6OJ
-0.20
1956
2t
1431
2t
525
JG
HT
-.229
(661
to.19
(t26.-15)
isa
2084
2-
1134
3-
950
JG
HT
(71)
to.4
1t2
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2092
2,
1519
2t
573
JG
IiT
-.461
(96)
to.7
(
4)
7 btlA42
GO 150
2092
2+
636
24
1454
JG
UT
-.054
(24)
-0.24
c
5)
TWA42
GO 150
2426
2+
636
2,
1108
JG
HT
-.403
(391
to.7
(
31
?aHA42
965
JS
nr
.040
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134)
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JG
HT
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121)
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344
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GD
154
154
616 996 104a
2+ tt 4*
123
123
311
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677
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123
154
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248
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154
1126
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371
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123
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117)
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154
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1093
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141
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AIZN
-.200
.250
160)
r300
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(40)
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48
(82)
(30)
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Atomic
(0 21 2)
77GIJiO AVERAGE
l l
1
61 J
J 3J
J
AVERAGE
l
77GVlO
l
7IJMEOl
* l
?(LYEOI
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(+14.-12)
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76YEO8
(30)
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t+b
(39)
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(t53v-22)
Dete end Nuclear
Data Tables,
l
AVERAGE
(60)
)
l
*
(110)
s-5
l
77cu1a 7auYEDI
T%YEBB
(50)
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J
t1.30
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l l
AVERA6E
(19)
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3*
St
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l
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r-3
(30)
1123
1770
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1
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75HE13 AVERA6E
AVERAGE
(tlb.-11)
-.340
4+
bt
9)
(,21*-9
A.2N
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1912
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t2.9
JG
154
154
5J
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60
.I40
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-.004
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(4) l2OJ
(20)
I
J I
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1 1
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71)HA42
.-1
(4)
(20)
7OHA42
(13)
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71
7aYEOI 78YEOI
Vol. 25, No. 1,Januery
1080
K. S. KRANE
TABLE
NUCLIDi
GO
156
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22, 269 (A < 57); 20, 211 (58 5 A =s 150); 16, 387 (A B 152) See page 34 for Explanation
INITIAL LEVEL E(KEV) 1129
J 2t
FINAL LEVEL EIKEV) 89
J
GANMARAY ElKEV)
2+
1040
GD 156
1154
2+
GO
156
1248
3t
GO
156
1248
3t
.39
2t
GO
156
1256
2t
89
GO 156
1511
4t
GO
156
1511
4t
CD
15b
lb22
5t
GO
156
1966
lt
GD 156
1966
l+
GO
156
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
2027
l+
tt
A2
89
-.060
-.033
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1201
(5)
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,335
(401
Ill)
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itoll*-24) (t19.-7
-17 -17
t f
79RI17
t
1159
JG
nr
-0.6
(*CB,-23)
79RI17
t
2,
1169
GG
89
+0.38
(t6
3,
262
JG
MT
t7.65 48.3
I+59,-51) I 4)
79RII7 AVERAGE
* *
288
4t
1222
JG
HT
-1.70
(+21,-16)
79RII7
t
268
4+
1334
JG
nr
-3.40 -3.8
t*57*-45L t 2)
79RIl7 AVERAGE
* *
2+
812
GG
89
.033
2t
1877
GG
89 69
-.52.3
09
.364
1248
1154
89
89
2*
1938
6G
-.040
140)
.020
(90)
-0.083 -0.059
(21) I 7)
77C322 AVERAGE
* *
128)
-.068
(55)
to.31
I
5)
to.35
I
4)
77CO22 AVERAGE
* *
-0.61 -0.57
t t
4) 2)
77CD22 AVERAGE
*
I I
3) 2)
77CD22 AVERAGE
* *
(241
-.236
145)
89
.630
(40)
-.510
190)
-1.5 -1.3
GO
156
2270
l+
89
2t
2181
GG
89
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(401
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(100)
-0.66
DV
160
2t
87
2*
679
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07 299 HT
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(61 (9) (7)
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OV
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3*
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HT
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160
1049
3,
87
2t
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67 215 HI
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112) (15) 126)
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(40)
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(45)
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BOB
2*
01
JG
nr
2t
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JG
WIN
It8
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768IiO6 768406 7913222 AVERAGE
-9.0
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79GR22
-8.4 -6.5
1+27*-17)
76BHO6 76BH06 79GR22 AVERAGE
115) (
-6.7
t 5) (45) I 5)
-0.7
I
t6.5
3)
-0
t+oo.-5
-30
(too.-161
79G922
)
77HDll AVERAGE
8.32
JG
NvN
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266
4+
795
JG
NvN
-1.0
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)
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NwN
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)
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620
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162
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329
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1*00.-4 (t14.-3
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4t
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162
1133
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162
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762
3t
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73
(+16.-101
I
76NE24 76WE24
t )
77NOii AVERAGE
164
828
3*
2+
755
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N-N
-29
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77HOll
164
916
4t
242
4,
674
JG
N.N
t2.7
I t87.-13)
ZIHOil
OV
164
5t
242
4+
733
JG
WIN
+5
c*oo.-3
Atomic
Data and
Nuclear
Data Tables,
1
Vol.25,
7
76WE24
OV
49
l
*
77no11
OV
1025
73
0.00
l
77C322
2t
OV
81
372
TIC022
(10)
GG
4t
)
-.004
2098
284
r-5
(5)
2+
DV
* *
(191
89
4+
77CO22 AVERAGE
l
-19
960
l+
1156
l
nr
4,
2187
160
2) 2)
77CO22 AVERAfX
JG
286
156
OV
I
89
2,
GO
966
REFERENCE
DELTA
GG
89
1065
TECHNIPUE
l
0
77HJll
No. 1. January
1980
K. S. KRANE
TABLE
NUCLIDE
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22,‘269 (A < 57); 20, 211 (58 G A ~-150); 16, 387 (A 2 152) See page 34 far Explanation
INITIAL LEVEL
EIKEVJ
J
FINAL LEVEL EtKEVJ
J
E3
164
1545
7,
614
6+
EU
166
786
2+
81
E3
166
a59
3+
E3
166
859
3*
ER
166
956
E2, MI Mixing Ratios, Supplement and Corrections, December 1979
Y+
265 81
265
GAMNARAV EIXEVJ
tECI+NIPUE
A2
931
JG
A.ZN
2+
705
JD
1-A
44
594
GU
31
2*
779
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C+
691
GG
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1100)
(84)
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DELTA
(150)
f110l
61
-6.5
l+55.-22)
c*
166
166
1074
1074
5+
5+
545
2b5
6+
4t
530
810
GG JG GG JG
ER lb6
1159
2t
766
2+
373
JG
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166
1216
6+
545
b+
671
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it?
166
1376
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911
0+
465
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EP lb6
i37b
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545
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911
a+
644
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911
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a40
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821
24
80
2+
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80 ArA
896
3+
264
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632
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166
3+
-.017
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166
896
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A+A
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(140)
61
51
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-.091
(48)
.300
(60)
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J
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t+oo.-5
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J
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l+00.-13l
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*
t+51.-9 (+27.-4 (+C .-2
J 750139 8 AVERAGE
S *
-25 -5.0 -25
( 3) (25) ( 3)
75EA39 76YE24 AVERAGE
* *
-20 -84
I 41 ~+00*-5n
75BA39 76YZ24
t
-0.15
(+lo*-ll)
-20
1+90*-q
30 -3.1 -46
t+15,-9 t+OO+-25)
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t+7 ,-5 l+OO.-l7J (+6 .-4
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t t
120) (201
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(361 (40) 120)
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(too*-35) t+oor-5 I 3)
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t t t
.004 -.090
(16) (201
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t t
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(20)
l 50
.lbll
(20)
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75BE43 750E43
t t
-0.09
I+8
J
758E43
t
(+00*-a
I
7m:oz
t
GN GG
198 40
-.033 -.157
(9) I81
4+
731
GG GG
99 184
-.I20 -.130
(12) (12)
(10)
447
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198
2+
855
JG
A+A
-70
I
l+ZO.-15)
2+
79
2+
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JG
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2+
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2+
398
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A.1
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Va
172
1172
3+
260
4+
912
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13
172
1263
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172
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11
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2+
2+
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1470
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MT
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MT
HT
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50
(20)
(231
Atomic
Data and Nuclear
Data Tables,
I
7dNCOZ
8)
-3.2 -3.37
4+
* S *
(121
1332
va
756A39 76Yi24 AVERAGE
76WE24
170
79
I )
750A39
170
3+
75BA39 76WE24 AVERAGE
100)
E2
1172
I
(400+-28)
52
172
758139
-10.13
+i.7
V3
t
flOOl
I16
-.I41
l
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2+
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l
(80)
.iao (0)
184
l
7dMCO2 I
(00)
2 .030
t
750139 76YE24 1 AVERAGE
81 AtZN
76YE24
-9
-6 i3
REFERENCE
78liCO2 76KRO4 AVERAGE
*
7bKR04
*
AVERAGE
A
l
76KRO4 76KRO4 AVERAGE
l l
76KRO4 AVERAGE
l
I
l
)
76KRO4 AVERAGE
Vol. 25, No. 1, January
l
l
1980
K. S. KRANE
TABLE
rJlJCLIOE
YE
172
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22, 269 (A < 57); 20, 211 (58 c A c 150); 16, 387 (A 2 152) See page 34 for Explanation
INITIAL LEVEL E(KEVl
J
FINAL LEVEL EIKEU)
lb63
3*
1263
VB
it2
1663
3t
I3
172
lb63
3t
VB
172
lb63
3*
13
lT2
1701
3+
VB
172
1701
34
1172
J
4,
GANNARAV EIKEVI
400
TECHNIQUE
JG
A2
.070
HT
3t
490
JG
HT
260
4*
1403
JG
MT
79
24
15.34 JG
HT
-.310
.lb2 -.I34 -.Zbl
A4
REFERENCE
DELrA
(401
0.00
(
(lb)
(46
r-5
119)
l 40
(too*-201
*ii
63STO9 7bKRO4
*I6 l 13
( 2) I 3) I 2)
AVERAGE
19)
to.05
t 41
76KQOc
(9)
HT
260
4t
1441
JG
HT
123)
+10
t*4
,-3
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79
2t
lb22
JGl
HT
-.I23
ill)
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its
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76KRO4
135)
to.40
(+36.-221
76KRO4
190)
-0.10
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76KRO4
.222
1701
Va
172
1749
4t
1263
44
486
JG
HT
-.267
VB
172
1749
4t
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34
577
JG
HT
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YE
172
1749
4+
260
4+
1489
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HT
VB
172
1803
*+
1263
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540
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HT
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172
1803
4*
1172
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172
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260
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172
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4+
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HT
VB
172
2073
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1803
4+
270
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HT
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172
2073
4+
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44
324
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HT
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172
2073
4+
1701
3*
372
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HT
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172
2073
44
1663
3t
410
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HT
v3
172
2073
4t
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697
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HT
VB
172
2073
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7)
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41
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(35)
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to.40
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to.40
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I101
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(13)
to.94
(*2b.-101
(61
-0.012
I
13)
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1241 1231
7bKQO4 AVERLGE
I 5) i 5)
4YLRLGE
-.I60
.OB4
-.266 ,112
HT
l*oo.-l3~
(2)
VB
172
2175
3*
1466
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172
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260
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V3
172
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1263
44
VB
172
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172
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4t
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44
482
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tlT
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172
2285
4t
1749
4*
536
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HT
VB
172
2285
4t
1701
3t
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HT
VB
172
2285
ct
1263
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1022
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HT
VB
172
22a5
4t
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3t
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HT
VB
172
2344
4+
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1081
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HT
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.-13)
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*lb
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(19)
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3)
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8lb
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(55)
to.11
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(42)
to.08
(*IBe-11)
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(39)
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7bKQO4
(71)
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(18)
to.11
(13)
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(67)
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7bKRO4
(24)
.240 -.299 .430
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172
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4t
260
Ct
2083
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HT
-.I15
(13)
to.40
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182
1442
4+
329
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100
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(38)
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681
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100
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139)
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166
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3-
952
2-
93
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A.4
Data and Nuclear
91
7)
7bKR04
7bKQO4 75YE22
4)
1*15.-1
Data Tables.
76KQ04
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)
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(45)
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7)
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76KQO4 I
(14)
to.066
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81
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7bKR04
JG
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2073
7bKRO4
528
VB
172
1
3+
1172
3+
va
7bKPO4
4)
to.13
75WE22 1
Vol
25, No
77llc11
1. January
1980
K. S. KRANE
TABLE
Ml Mixing Ratios, Supplement and Corrections, December 1979
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22, 269 (A < 57); 20, 21 I (58 c A 6 150); 16, 387 (A 3 152) See page 34 for Explanation
INITIAL NUCLICE
E2,
LEVEL EIKEVI
6Awlfn-
J
FINAL LEVEL E(KEVI
J
RAV E(KEVl
TECHNIQUE
A2
A4
OS
186
767
2+
137
2+
630
JG
nr
OS
186
910
3+
137
2+
773
JG
WT
OS
186
1070
44
434
4+
636
JG
Ill
.123
(321
OS
186
1275
5,
434
4t
841
JG
HT
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(541
OS
166
1352
4t
910
3t
442
JG
HT
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OS
186
1461
4+
434
4+
1027
JG
HT
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OS
186
1491
6t
869
64
622
JG
nr
OS
186
1560
St
4t
489
JG
HT
OS
186
1813
6+
669
6+
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MT
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186
605
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266
2+
340
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Pf
192
612
2+
316
2+
296
1070
PIIN
E L/L GN 518 NN'N 58vl6
.056 -.045
DELTA
REFERENCE
(44)
11
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78SPO5
t
(10)
32
(00)
76sPO5
t
*ii
1+45,-5
18
(42)
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tQ.81
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7
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2)
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t
74vo13 75KA42 75PA23
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t
sr
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612
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47.4
I
4)
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t
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192
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3+
316
2+
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316
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171
-.080
(Ii)
-2.5 -2.a
f (
21 51
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l
t27 +22
I t
5) 3)
75KA42 AVERAGE
to.006 -0.221 -0.010
I 6) 1801 I 4)
77KO47 77nco1 AVERAGE
*
PT
PB
P3
194
206
206
622
1341
1684
2+
3+
St
329
803
134i
2+
2+
3+
293
537
343
GN
56 JG
645
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151
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1.3)
till
l
l l
l l
Hi HT
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(13)
JU
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77KO47 77NCOl
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2200
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150)
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t
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206
2782
5-
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6-
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fir
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(26)
to.046
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206
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3-
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5-
497
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131) (211 I dl
77KDb7 77UCOl AVERAGE
l
4.018
110)
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77KO47 77MCOl
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IlOl
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115) (201
T/K047 77tlCOl
t t
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Ill) I108
76AVO3 AVERAGE
*
(20)
to.015
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76AVO3
t
(10)
-0.052 to.03
(4% t 31
76AV93 AVERAGE
4
JG JG
Ml 41
620
JG
YT
6-
LDIS
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5-
277
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206
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206
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206
3403
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208
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206
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763
583
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.i33
(28)
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IS)
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533
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(30)
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to.31
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.005 -.070
146) (70)
40.10 -0.01
(
to.02
7)
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1+9 t t
61 51
4
? t t
4
l
76AVO3 6lSIll 76~~03 AVERAGE
l l l
* New value which changes previous average t New value which does not change previous average
52
Atomic
Data and Nuclear
Data Tables.
Vol. 25. No. l.January
1980
E2, MI Mixing Ratios, Supplement and Corrections,
K. S. KRANE
December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 d A s 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIDE
SI
27
SI
27
SK
27
INITIAL LEVEL EtKEVJ
FINAL LEVEL EIKLVJ
2J
957
GAMNARAV :(KEVJ
25
3,
0
54
2164
7+
0
5,
2647
5,
3*
957
JG
4vJ4
2164
JG
A.N
lb90
JG
ArN
A4
A2
-.650 -1.070
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OELTA
(50)
(
4J
77Sl32
t
-0.4e -0.43
( (
3J 3J
77Sl32 AVERPGE
* *
-0.12 -0.079
( 3J (12)
77SC32 AVERLGE
* *
(170)
-0.36 -0.414
(14) (44)
77$132 AVERICE
* *
(20)
.I50
(401
(401
27
2647
SI
27
4450
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39
2090
5-
AR
39
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t
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755716
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t
40.001 40.008
(12) t 8J
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l 0.2
(
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7BEGO2
130)
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(20)
.040
(20)
l 0.3a
( 2J
7BLIl2
.530
(4OJ
(401
40.36
(14) ( 4J (13)
TIE;01 TM112 4VER4GE
*
(10)
40.013 to.04 40.013 -0.07 -0.092
( 7J (31)
79BE27 AVERA6E
l
(101
.0.32
(
(10)
40.28
(141
798E27 79Bi27
-.030
-.tlO -.260
(10)
220
JG
A.N
.OIO
(10)
1395
54
991
3+
404
JG
ArN
.140
(10)
43
1932
5-
373
s-
1560
JG
A.N
.430
(20)
c4
43
1932
5-
I-
1932
JG
A,N
CL
43
2067
7-
5-
lb95
JG
A.N
CL
43
2067
7-
0
7-
2017
JS
A.N
CL
43
2094
9-
0
I-
2094
J&
4.N
.310
.320 -.190
-.040
tbJ
s-
-.940
-.I50
bJ
ltlbs-3
0.34 -.I90
J
40.07
T
373
0
-.590
(12)
3-
373
REFERENCE
*0.50
SI
CL
5,
957
Tc;CliNIQUE
.030
-.030
,020
-.030
(10)
(+35,-27)
51
3J
7BLIl2
l
*
l
79BE27
(10)
.020
(10)
-0.6
(
(30)
.I20
(30)
-0.90
(24)
79BE27
(10)
.OlO
(10)
-0.10
( bJ
79BE27
120)
.lbO
(20)
-5.9 -5.9
Iill (11)
79BE27 AVER4GE
l
C
t New value which does not change previous average * New value which changes previous average
53
Atomic
Data and Nuclear
Data Tables,
Vol. 25, No. 1, January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 s A c 149); 18, 137 (A > 150) See page 34 for Explanation
NlJCLIOti
INITIAL LEVEL EIKEVJ
2J
CL
43
2103
3-
c4
43
2250
9-
FINAL LEVEL E(KEYJ
cANMARAY EIKEYJ
2J
593
3-
1509
JG
AIM
I-
2250
JG
AeN
9
c4
43
2951
11+
2410
c4
43
3051
li-
1876
ll-
c4
43
3505
13*
2951
11*
CP
43
3663
13-
lb78
ll-
c4
43
3944
is*
3505
13,
c4
43
4167
154
3371
13+
c4
43
4394
is-
2754
is-
c4
43
4591
174
3944
1st
c4
43
4621
is*
3371
13,
11
45
265b
13-
1469
1x
45
3016
15-
2656
II:
45
3601
ll-
3OL6
rf
45
6164
23-
5421
TX
47
160
9,
O
I-
1ECHNIPUE
542
JG
A.N
1373
JG
A.N
554
J6
ArN
1985
JC
AsN
439
JG
815
a.650
-*lb0
(20) (20)
(10)
-.050 .050
* 030
DELTA
REFERENCE
(30)
+2.0
(17)
79BE27
(301
-0.75 -0.75
(12) (12)
79BE27
(10)
-0.04
4 21
79BE27
(10)
to.30
(
79BE27
-.300
(30)
-.O?O
(40)
-0.06
4 2)
798i27
-.920
130)
140)
-0.60
A.N
-.24G
(20)
-.OlO
(20)
JG
A.N
-.500
(20)
-.OlO
(20)
-0.15
56
A.N
(701
-.170
(701
-0.50
JG
ArN
-.300
110)
-.030
(20)
1250
JG
A*N
-.260
150)
ll-
iiad
JG
OIAPN
-.590
13-
358
J6
O*APN
-.390
15-
516
JG
O*APN
-.490
21-
743
JG
O.APN
1640 647
.420
.430
,110
0.00
0.00
5)
(
4)
798L27
(
2)
796E27
(
2J
798E27
(14)
79BE27
4 2)
790E27
.070
(60)
-0.02
(
31
798E27
(60)
,240
(80)
-2.6
I
5J
78F009
(60)
.a70
(80)
-2.6
(
3J
78Foo9
(20)
.llO
(30)
-2.3
t 1J
76F309
-.560
(30)
.210
140,
-2.7
1 3J
78F009
5-
160
JG
LfrP3N
-.235
(20)
-.040
(201
(
3)
7sFoo9
t
JC
LfeP3N
-.a40
(20)
-.OlO
(30)
.a.13 +0.05
( r
CI 2J
7wa09 AULRACL
l l
JO
LIvP3N
-.540
(501
1601
-0.14 -0.02
( t
51 3J
78FD09 AVCRACE
*
(701
-0.05
(
4)
78F009
(130)
-2.0
(
4)
7sFoo9
,-a 4)
b
(
7bKA32 AVERASE
s-6
I
76KA32
47
1445
ll-
1253
9-
r1
47
3571
ll-
2749
15-
622
TI
47
4496
19-
3751
17-
927
JG
v
49
3741
19-
3224
17-
417
JS
CR
51
1353
604
J&
3-
LI.PSN
S,A3P
-.340
(60)
-.640
(1001
.OlO -.090
.230
A-N
0.00
to.40 to.30
t+4
(+9
CR
51
1353
5-
0
7-
1353
JG
A,N
to.06
CR
51
1557
7-
0
?-
1557
JG
A,N
-0.35
(*t3.-14J
7UK432
52
2379
14.90
ll-
CR
51
2705
ii-
1460
ll-
cu
51
2705
ll-
1165
MN
51
HN
51
CR
237 14ee
9-
I-
11-
A.N
JG
A*N
to.32
(+75,-54)
7SKA32
1540
JG
A.N
-0.09
(*24.-39J
7SKA32
(
78F309
t t
.OlO
130)
237
JS
NLsZPN
-.OlO
(30)
9-
349
JG
NIrZPN
-.070
140)
-.llO
(40)
(
81
7ffoo9
(40)
-0.05
(
5J
7bFOO9
I1408
-0.23
(
6)
75F009
-0.12
t
4)
75Foo9
5i
4136
19-
3679
17-
459
J6
NIIZPN
(40)
51
5637
Zl-
4138
19-
1499
JG
NIIZPN
-.610
(120)
-.070
MN
51
6465
23-
5637
21-
A31
JG
NIq2PN
-.470
(100)
,000
(1201
MN
53
2564
13-
1441
ll-
-.260
(201
.050
(20)
15-
2693
l
5-
MN
3440
7bKA32
JG
NW
53
15-
;
1224
-.lOO
NM
(111
l
io.02
099
9O
1139
:
AVERAGE
-.020
1r
749
,270
A4
(201
192
5-
A2
1122
747
JG
Jt J6
.290
0*3P
.511 .420
AeP 0*3P
(27) (601
.035
-.OlO
(29) (50)
0.17
0.00
0.00
I 18
796UlO
l
+a.004
c 91
AUERlCE
*
to.15
(+10,-17J (*la.-261 (t9 s-14)
73SAlD 7961110 AVER46E
l *
iO.16 +0.15
54
Atomic
Data and Nuclear
5J
Data Tables.
Vol. 25, No. 1. January
f* l
'
lS80
K. S. KRANE
E2,
Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 s A s 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIDE
INItIAL LEVEL E(KEV)
FINAL LEVEL E(KEVl
ZJ
25
GAWAPA'1 E(UEVl
TECHNIQUE
A2
DELTA
A4
MY
53
4384
17-
3440
is-
943
JG
0.3P
-.380
CL01
-.OlO
(40)
MN
53
7004
23-
6533
21-
471
JG
0.3P
-.250
(401
-.030
(40)
Fi
53
1424
683
JG
s-
712
3-
-0.08
9sUlO
I
2)
7
I
4I
79GUiO
l 0.36
!
e-2 2)
(12)
0.00
+0.36
A.N
REFiRENCE
(+6
)
7OKA32 AVERAGE
* *
79sIO4
t
t
MY
55
1805
7-
0
5-
1885
JG
N.N
+0.12
HN
55
2199
7-
0
5-
2199
JG
NvN
-0.31
(+29.-261
79s104
FL
59
473
5-
0
3-
473
JG
O,A3N
-.250
(50)
-0.02
(
77NA10
0
3-
571
JG
OsA3N
-.560
(20)
41.1
110)
77YAlO
5-
452
JG
0.A3N
-.630
1201
l 1.1
I
9)
77MLlO
5-
a*2
JG JG
l 1.0
111)
a.03 l i.62
(20)
* *
fl.Sl
77P906 77YbO3 AViRAGE 77PAO6 77nAO3 AVERAGE
* * *
77ULO3 AVERAGE
*
Ff
59
571
5-
FE
59
1023
7-
NI
61
909
5-
NC
NI
bi
61
909
1015
0
1100
3-
NI
bl
1132
5-
1132
3-
67
7-
61
61
67
5-
NI
NX
571
5l-
283 b7
5-
5-
0
3-
909
947
617
1065
1132
P*P A.N
JG JG
PIP A*N
JG
A*N
,117 .150
-.lOS -.2a0
,470
J6
A.N
-.OlO
JG Jti
P*P 4.N
,127 .210
JG JG
AeA A.N
-.185 -.440
162) (101
(381 (10)
I101
.020
120)
(101
-0.18 -0.16
I I (
I101
+2.4b 42.46
(151 (141
-0.9
-.020
.130
4)
61 5) 5)
(101
.ooo
(101
to.23
I
(56) (10)
(10)
to.5 l 0.14 to.14
t*13,-5 (121 (12)
)
.ooo
(*ii,-6 I I
1
(10)
-0.6 -0.47 -0.40
91 81
77PA06 77WAO3 AVERAGE
(491
(101
.OlO
71
l
l
77YAO3 77P106 77YAO3 AVERAGE
l l
i * l l
NI
61
1454
7-
67
5-
1387
JG
A*N
.440
(201
.150
(30)
l 2.7 +2.7
I (
41 41
77w403 AVERAGE
**
NI
61
1609
5-
67
5-
1542
JG
ArN
.160
(10)
,000
120)
-0.07 -0.06
I I
51 51
77WAO3 AVERAGE
l
* *
NI
61
1609
5-
NI
61
1808
9-
NI
61
1968
NI
bl
1988
YI
bl
1997
5-
0
3-
NI
61
2018
I-
67
5-
'41
61
2409
0
3-
1609
JG
AvN
ArN
(10)
.OlO
(201
-0.33 -0.33
(14) (14)
77WAO3 AVERAGE
.570
(201
.060
(201
l 0.97
(18)
77YAO3
-.400
1015
7-
793
JG
9-
1454
7-
533
JG
A*N
-.lOO
(10)
(20)
l 0.02
1 3)
77YAO3
9-
1015
7-
973
JG
A.N
-.790
l.20)
.ObO
(30)
-0.70
1238
77WAO3
1997
JG
ASH
-.430
(10)
.020
(201
-0.27
i
77YAO3
1951
JG
AeN
-.260
(20)
120)
-0.02 -0.02
9-
1454
9-
7-
955
J6
AWN
-.300
-.030
-.030
61
t+7 (47
,-2 e-2
I )
77WAO3 AVERAGE
(30)
.020
1401
-0.10
I
5)
77laAO7
9)
77WAO7
HI
61
2409
1015
I-
1395
JG
A-N
-1.000
I3001
.lOO
(200)
-1.2
I
HI
61
3259
ll-
1906
9-
1272
JG
AeN
-.610
1401
.030
150)
-1.5
(12)
77UAO7
HI
61
3298
11*
2121
9+
1177
JG
ArN
(10)
.070
(10)
to.63
I
8)
77NAO7
HI
61
3426
13-
2129
ll-
1298
JG
AsN
(50)
.450
(70)
-2.6
(
4)
77WAO7
NI
61
4019
15*
3435
134
584
JG
ArN
(30)
.lOO
1401
+0.63
(10)
.440 -.720 .560
Atomic
Data and Nuclear
Data Tables.
*
l
l
* l
77YAO7
Vol. 25. No. 1, January
1980
56
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 G A c 145); 18, 137 (A > 150) See page 34 for Explanation
hl!JCLIDE
CJ
61
CU
61
CJ
65
INITIAL LEVEL E(KEV)
ZJ
970
FINAL LEVEL E(KEv)
GAMA2J
rECHNIPUE
RAOr E(KEV)
A2
DELTA
A4
5-
0
3-
970
JC
P
-0.13
(
3J
71KI29
t
1394
5-
0
3-
1394
JG
P
-4.0
I
3)
7lKI29
t
1327
?-
5-
365
JG JG
77EK03 77PAl5 AVERAGE
l
962
P P*P
-0.073 -.270
(30)
.020
(20)
-0.10
t+5
-0.090 C3
CU
63
63
1412
s-
1412
962
5-
5-
0
3-
450
1412
56 J&
63
1547
3-
cu
63
1547
3-
CJ
63
1547
3-
962
5-
670
lo
3-
585
577 1547
P PSP
JG JG
JG
P*P
P*P
962
5-
II99
JG
P*P
CU
63
2011
3-
962
5-
1049
56
PIP
2011
3-
2511
3-
CU
63
2082
5-
cu
63
2062
5-
b70
-a050
130)
(20)
-.OlO
-.150
(30)
(90)
-.OfO
l oio
.040
-.120
.OlO
1+17,-14) 1+49.-23) c+l3.-101
+0.57 to.62 +0.59
(t7 (+5
to.29
CO.17
63
2208
9-
77P115
l
AVERAGE
l
f1OOJ
-0.6
(+16.-7
+0.013 to.05 to.02 +0.05 to.05
.ooo
(20)
(20)
,000
(30)
150)
.OOO
(50)
JG
PIP
140)
-.OlO
(401
2011
J6
PIP
,050
(30)
-.030
130)
1547
3-
535
JG
PIP
.oio
(90)
.030
(100)
1327
I-
755
JO JG
AtP P*P
-.550 -.140
(130) (40)
.030 ,030
(130) (408
CU
63
2677
ll-
CU
63
3462
ii+
ZY
63
193
2208 2506
5-
ZN
63
638
3-
ZN
63
638
3-
211
ZM
ZY
63
63
63
651
651
1024
7-
5-
0
248
0
193
0.00 -0.6 0.00
77Phi5
(501 (+6 ,-8 ( 41
J
77EKO3 77PA15 AVERIGE
* * *
(t3 (+3
J 77PAl5 I AVERAGE
I) *
5-
3-
651
(+36.-00) (+lb.-7
(+13*-11)
77PA14
.0.28 to.36
I 8) (+46,-341
-.A70 -.530
((10) (30)
.020
(70) (30)
-0.26 -0.24 -0.27
t
469
JG
AtP
-.200
110)
.050
(101
to.01
I
3J
9t
956
J&
ArP
-.030
(10)
.ObO
(20)
-0.42
14)
3-
193
JG 56
A+N A*N
-.250 -.200
(101
.a40
to.03
(
(101
,001
(10) (9)
-.430
(40)
-.lOO
144
(20)
+0.02 40.04 +0.034
3-
638
JG JG
A*Jf A-N
.220 .340
110)
(101
-.oto ,040
110)
JG JG
ArN L*N
.330 .33a
(20) 1101
-.a40 ,020
(20) (150)
110) IlOJ
-.030 .120
110) 110)
-0.29 -0.57 -0.57
5-
651
373
JG JG
-.580 -1.040
79MuoI 79nlJoa
EL v-2 2J
J
78JJEi7 I&W02 AVERAGE
s-3
I
78WJO2
f 3J f 2J (17) I
77PAl5 AVERAGE
,-1
76tlEl7 J 7bMUO2 8 AVERAGE
I I I
3J 31 3J
7BllEl7 78nua2 AVERAGE
(
(+2 I+2
4) r-l
76JfEl7 78WV 02 AVERAGE
.120 .180
(201 (20)
.ooo .030
(30) 1201
-1.5 -0.82 -0.83
(+5 (45
5J ,‘4 .-4
73HEl7 8 713WO2 J AVERAGE
.2oa
160)
,060
(50)
to.57
(+b
s-3
fi
(401 (20)
-.020 .070
(40) 130)
-1.3 -0.91 -0.91
t+6
140) (20)
.030 .070
(40) (20)
+1.5
397
J6
L*N
ZN
63
1024
J-
248
I-
776
56 JG
A*N A*N
3-
7bOLOl J
2,”
I-
1024
I
0.00 -0.06 -0.08
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56 JG
627
O
-0.05
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3-
s-
(40)
JG
1024
1024
t+3
390
63
63
+0.07 +0.05
l-
3-
I
JG JG
A*N A*N
-.320 -.500
.390 .320
41.9 +I.8
TOW02
(tlI.-13)
78Jlil7 7!3JNJO2 AVERAGE
( ( (
7twJE17 7snuo2 AVERAGE
(
t
77P415 AVERAGE
( 8) I+0
t
77PA15
to.23
9-
458
77PAl5
1
77P1115
ArP P*P
ZY
ZY
.130
.-2 1-Z
t+34,-30)
JG 56
l l
I
5J r-6 4J
5-
0
se1
l
1+16,-l?) 110)
120)
) I
l
*
to.15
130)
1351
1327
77EK03 77P415 AVERAGE
*
to.28 Gil
l
*
I
.-4 s-7 4J
l
77EKO3
3-
-.130
+0.32 to.09 +0.22
I
(+22,-17)
l0
(22) s-3 115)
77EK03 77PAI5 AVERAGE
(201
P
7-
63
-.020
PIP
JO JG
1661
63
.lSO
PIP
63
CJ
120)
P
CJ
CU
.lCO
P
JG JG
CJ
REFERENCE
3J .-2(r)
5) 2) 2)
* * *
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
K. S. KRANE
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 G A s 149); 18, 137 (A > 150) See page 34 for Explanation
INITII\L NUCLIOE
LEVEL EIKEVI
FINAL LEVEL EIKEV)
2J
25
GAMNARAf FIKEVI
T ECCHNIQUE
44
42
.460
(20)
ZN
63
1064
7-
193
5-
871
JG
A*N
ZY
63
1064
I-
651
5-
413
JG
ArN
ZN
63
1207
7-
651
5-
556
JG
AeN
.950
IbOl
Z4
63
1207
I-
193
5-
1014
JG JG
AvN 4-N
.350 ,400
(20) (20)
ZN
63
1285
5-
ZY
63
1394
3-
ZY
63
1664
7-
0
0 193
3-
JS
A.N
5-
1471
JG
AsN
3-
1691
JG
I-
797
JG
63
1691
5-
63
1862
9-
ZY
63
2157
3-
ZY
63
2157
3-
ZY
63
2250
9-
2’4
63
2290
3-
ZN
63
23lJo
9+
1704
9+
ZY
63
2635
7-
1207
7-
ZN
63
2827
ll+
1704
9,
ZN
63
2913
9-
1207
I-
CU
65
1462
7-
1115
5-
CU
65
lb24
5-
1115
5-
cu
65
1624
5-
ZY
bi
769
5-
ZN
65
769
5-
ZY
65
8b5
7-
ZN
65
910
3-
ZY ZN
65
65
910 910
3-
4.N A.N
1394
ZN
0
JG JG
3-
ZN
1065
1285
-.400
-1.200 -1.150
.290
(201
1200) (90)
IlOt
.150
DELTA
(20)
to.51
I
5)
7sn.c17
(20)
-0.08
I
31
7mJEl7
.z40
170)
-1.24
(
9)
78WO2
,200 .z70
(20) (201
47.0 l 4.71 iC.8
(251 ~t10~-7oi t+l r-7
-.050
-.200 .?CO
(200) 1901
-0.8
.OlO
1101
+0.36
(*il.-10)
.OlO
(101
l 0.1a
I
3)
79tJUO8
A,N
(101
-0.10
t
3)
79NUOA
AeN
-.360
1101
-.030
(10)
-0.03
(
2)
79wO8
.050
140)
-2.0
I
21
79lllloa
l-
1530
JG
AIN
-.390
(30)
246
l-
1909
J6
4.N
-.280
(10)
.020
1101
-2.3
I
21
79WO8
7-
1185
JG
AqN
(201
-.OlO
(20)
+0.9
t
2)
79tJUO8
l-
2042
JG
ArN
-.370
(50)
1501
-0.6
t
3)
79!uoo
676
JG
4.N
-.380
~1OI
-.250
(101
-2.5
1429
JG
4rN
.290
(20)
-.OZO
(20)
l 0.02
I
1123
JG
ArN
.bOO
(20)
.070
(201
to.66
(101
79JJUOI
1706
JG
AsN
-.780
IlOl
.220
(101
-1.7
I 1)
79MUO8
367
JG
P.P
-.I74
(601
,080
(70)
+0.07
t+r
509
JG
p*p
(Till
.090
(901
-0.25
(+72,-39)
JG
P.P
-.070
(70)
.OlO
i8Ol
-3.7
l+Zb,-8
-.550
I101
.OlE
(0)
-0.43 -0.43
t (
(21)
1065 248
0 115
0
0
115
54
0
3-
lb24
3-
654
J6
4.N
5-
769
JG
4.N
5-
865
JG
4.N
3-
795
56
4.N
l5-
856
910
J6
JG
4sN
A&
.570
.(I20
.380
-.570
.240
-.260 -.lOO
(20)
.OlD
-.054
78KDil 4VER4GE
l
40.25 +0.25
I I
4) 4)
7AKOll AVERlGE
*
-0.42 -0.43
I t
5J 4J
7I)KOll 4VER4GE
* *
l 0.03
to.03
I 11 1 1)
78U(Dll 4VERAGE
* *
(10)
114)
-. 001 t 10)
JG
4.N
-.210
IlOl
-.OOI
(12)
1470
3-
54
* *
(201 (17)
,046
484
115
7OKOll AVER4GE
-0.96 -0.85
(10)
5-
3-
4J
t
* *
769
399
I 6)
78KOll AVERICE
7-
1229
to.33 to.27
112)
1253
3-
:
(11)
65
I-
7AK311 AVER4GE
to.40 +a.44
ZN
865
Cl 4)
(13)
115)
115
t
-.017
-.020
9-
77H413
t
IlOt
I101
5-
t
* *
-.550
1344
t
77tl413
7lKDll 4VER4Gc
4eN
12b4
77H413
*-iSI
t 41 t 3)
JG
65
79HUO8
-2.17 -2.22
932
65
79tlUOB
(10)
3-
ZY
I 7J
.200
115
Z4
J+lZ,-5
IlO)
5-
1470
79MIJO8
-.a20
110)
1047
65
AVERAGE
I101
.020
65
65
TOnEll 78WO2
I 31 I 21 (17)
-0.7 -0.73
ImEl 78M502 AVERLGE
-.430
ZY
ZN
I
627
3-
ZY
RiF2REHCE
JG
A*N
-.310
(201
,004
(241
-0.023
IlOI
56
4-N
-.52Q
1101
l 005
(108
-0.33 -0.34
t I
3J 3)
(13)
t2.1
I
31
78KOll
(2%
to.24
(
51
78KDll
Vol
7.5, No. 1. January
3-
1354
JG
AeN
l-
1414
JG
4.N
.200 -.002
57
110) (19)
,019 -.034
Atomic
Data and Nuclear
Data Tables,
*
l
7OKOll 78K311 AVERLGE
l *
19.30
58
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 G A c 149); 18, 137 (A > 150) See page 34 for Explanation
IN1
NUCLfDf
ZN
65
rIAL LEVEL EIKEVJ 2J
1577
3-
ZN
65
1577
3-
ZY
65
1580
7-
ZN
65
15lJ8
7-
FINAL LEVEL C(KEVJ
54
0 769 Q
GANNARAV E(KfVJ
25
l5-
1522
TfCHNIPUE
JG
A2
A4
PIN AtN
.Q92 -.073
(581
JG
(34)
1577
JG
P-N
-.Q64
5-
8i9
JG
AsN
-.62Q
5-
158ll
JG JG
PIN A*N
.Q96 ,200
(12)
-0003
DELTA
(15)
REFERENCE
41.7 -2.5 -2.5 t1.2
(+OO.-13) I 3J I 3J (+12r-7
(30)
.09Q
(40)
-0.23
I 3J
138) (10)
.048 -.OOS
(50) (12)
to.29
I (
to.31 l 0.31
I
74EZOi 78KOll AVERA&E 74EZQl 7810
4J LJ
74EZOl
I 2J
AVERAGf
il
76K311
ZY
65
1958
7,
1369
5t
5.58
JG
-.093
(ZQJ
.OiO
(20)
to.11
I
1)
77LOO3
ZN
65
1956
74
1066
9t
892
JG
-.OlQ
(10)
-.CQO
(60)
-0.27
I
1)
77LOO3
ZN
65
2139
lQb6
9t
.SOQ
(10)
.030
.570
(101
.050
110) (10)
to.67 l 0.04 to.70
( 5J IlQJ t (0
77LOO3 74NL02 AVERAGE
tit
1072 JJE
ZY
65
ZY
67
105
3-
ZN
67
394
3-
ZY
67
394
3-
ZN
67
394
3-
0
ZN
67
815
T-
O
ZN
ZN
ZN
ZN
ZY
67 67
b7
67
67
3473
15t
886
5-
888
0 185 93
394
5-
1364
5-
1364
5-
1364
5-
13,
2055
386
A.N
.810
130)
.Q70
130)
t0.e
(
4J
78NEQ2
5-
ia5
JG
AVN
-.OCO
(30)
,020
(30)
to.01
I
CJ
78DUO4
t
3-
209
JG
AVN
.120
(30)
,040
t4OJ
-0.10
f 6)
78OUO4
l-
301
JG
A*N
(30)
,010
(30)
to.20
(
81
78OUO4
t t
S-
394
JG
AvN
,050
(30)
,020
130)
-0.17
(
OJ
76DLJO4
t
5-
815
JG JG
AeN AtN
,290 .250
(30) (30)
.14Q
(40) IJOJ
I I
01 7J .-2
78ouo4 78LOO6 AVERAGE
*
,090
t5.0 46.0 t4.5
5-
3-
185
3-
494
8dll
476
970
1179
56 JG JG JG
AsN AIN A-N AWN
-.02Q
-.330 -.35Q .370 .36Q
1501
1101 (30)
IlQl
,020 -.OlO -.OSO -.020
JG JG
AvN ArN
-.03Q ,000
(60) ISOI
,060 ,020
JG JG
AsN AvN
-.560
t7QJ 410)
-.QlO -.OlO
JG J6
A-N AvN
-.510
(60)
-.530
(20)
-.53Q
.250
(40)
-.a80
.ObO -.120
I 6J ( t
3J 2J
to.90
t I
9J 6J
78OUOC 78LD06 AVERAGE 78OUO4 78LOO6 AVERAGE
-0.3 -0.37 -0.36
I t (
1) 5) 4J
78OUO4 78L3Q6 AVERAGE
-0.21 -0.31 -0.30
I I (
4J 6J 5J
AVERAGE
-0.2 -0.28 -0.27
I ( (
2J 7) 7J
AVERAGE
(401
t2.Q
f
5)
78DIO4
I 81 (30) ( SJ
7mJo4 78LOO6
I 3J
(40)
ClQJ (1001 (60)
(50) (10)
(80) (30)
1364
5-
0
S-
1364
JG
AIN
ZN
67
1543
3-
0
5-
1543
JG JG
AIN AeN
-.140 -.210
f5QJ (20)
.OOO .OOO
1601 (20)
+0.20 to.53 to.22
67
1603
7,
ArN ArN
-.300 -.150
(401 (701
.070
150)
-.iso
(2001
io.07 0.0 to.06
(2QJ t5QJ
.OQO -.120
(30)
ZY
ZY
ZN
67
67
1603
74
lb57
I-
604
9t
BB3
5-
624
999
769
J6 JG
JG JG
JG 56
A-N A.N
ArN AeN
.180 .300
-.210 .270
(60) (30)
-.050 ,020
(70)
ClOQJ (40)
b7
1732
ii*
604
ZY
67
i6QO
7-
ZN
b7
1800
7-
ZY
67
1808
9+
9t
86% 0 604
1128
56 J6 JG
ArN AirN AsN
5-
912
JG
AsN
5-
1800
JG
AWN
9+
1203
JG J&
AvN AsN
.560 .58Q .290
.ii(l
-.390 -.240
(20) 120) (50)
Clft)
140) (60)
.04Q .120 .Q50
-.Q30
-.ieo -.500
l
l l
7muo4
76L306
AVERAGf 77L303 78OUO4 AVERAGE
21 .-9
-0.28 -0.45 -0.29
(
31
I
3J
77LOO3 7mJo4 AVfRAGE
0.0
I I I
2J LJ 2J
AVERAGE
l
77L303 77NE04 7AOUQC *VERA&E
l
to.64
(15) I 1J ( 2J ( 7J
+o.i
t 1J
7eLoe6
-0.30
t
76LOO6
(44
to.00 to.5
40.6
+3 4
I (+2
76OUOC 78~006
81
.-I
(42
t11 l
J
(10)
to.01
(20) IiQOl
(50) (200)
l
;
I
(20)
(30)
l
*
76OUO4 78L306
t-10)
cte
0.00
ZN
J
-0.14
67
5+
It3
-0.17
(40) (20)
ZN
980
l
JG
5-
394
l
1419
3-
0
*
J
31
.-1
J
77LJQ3 7oouo4 AVERAGE
l l
l l
*
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 G A s 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIOE
INIlIAL LEVEL ECKEVJ
FINAL LEVEL E(KEVJ
ZJ
2J
6Altlf4RAY EWEVJ
A2
TECHNIQUE
A4
REFERENCE
DELTA
ZN
67
1675
5-
394
3-
1461
56 JG
-.780 -.840
(150) (8OJ
-.lOO .12a
(200) f108J
-0.36 -0.8 -0.45
(10) I 2) I 91
7.5ouo4 7BcOO6 AVERAGE
ZN
67
Lb75
5-
015
I-
1060
JG JG
.ObO -.ocs
(50) 130)
-.130 -.020
180) (30)
-0.2 l 0.02 -0.05
I 1J c 7J I bJ
76ouo4 74096 AVERAGE
ZV
b7
2137
9-
015
7-
1322
JG
-.900
12001
.150
(150)
-0.6 -0.75
I 2J ft18,-13)
78DUO4 AVERAGE
* *
ZN
67
2451
719
JG
(20)
,090
(20)
40.5 +0.55
( I
1) 6)
77NiO4 AVERAGE
*
120)
-0.08
(6)
-0.059 -0.06 -0.065
I f I (
1J 6) 21 51
77AL35 77PAO8 AVERAGE
* * * *
G4
67
359
134
5-
t4
67
828
3-
G4
67
826
3-
GP
67
911
5-
G4
67
911
5-
G4
67
1202
7-
GA
67
1413
G4
67
1413
GP
b7
1554
1732
it+
0
lb7
0
359
JG JG JG
-.330 -.065 -.2511
IlOJ (2)
(10)
-.OlO .005 .OOb
(10)
792001
l-
661
JG JG
-.*20 -.040
(20) 120)
-.0&O .003
(30) (151
-0.36 +O.Ob -0.29
t 9J 120) I 81
77A~35 77PAOI AVERAGE
3-
826
JG JG
.oao -.002
(20) (3)
-.OlO -.ooi
(40) (31
-8.14 -0.19 -0.lb
I CJ I 6) c 3J
77AL35 77PAOd AVERAGE
5-
-.003
(23)
to.3
552
JG
.061
(21)
3-
911
JG J6
.150 .021
(10) (1)
.020 ,007
(20) (31
CO.32 to.34 to.33
I 2) I 21 I 11
77AL35 77PAOd AVERIGE
359
5-
643
J6 JG JG
-.440 -.llO -.396
120) (101 130)
.220 .016 .156
(20) t.31 (30)
-3.08 -3.2 t3.1 -3.13
fl6l t EJ 1 3J (12)
77AL35 77PAS8 792001 AVERAGE
7-
911
5-
502
JG JG
-.450 -.166
130) IlSJ
-.050 ,019
(301 (151
-0.11 -0.25 -0.11
I ( I
11 6) 1J
7lAL35 77PAOS AVERAGE
7-
359
5-
JG J6
-.blO -.192
(20) (71
,160 -.009
(20) (91
-2.0 -1.46 -1.68
( I I
1) 9J 7)
77AL35 77PAOS AVERAGE
-0.65 -0.24 -0.64
I 31 (t16,-14) ( 3J
77AL35 77PAOS AVERAGE
+0.42 +O.b9 l 0.43
I 4J (+29.-lb1 t 4J
77AL35 77PASI AVERAGE 77PAOl
5-
G4
67
1554
5-
G4
b7
lb40
3-
G4
67
1640
GA
67
lb40
359
3-
.‘a50
0
359
5-
0
1054
1195
JG J6
-.190 .007
(30) (61
.310 .024
(30) l6l
-.020
130)
-.013
(7)
tt10*-5
I
3-
1554
JG JG
820
3-
811
JG
-1.0
(
.3-
359
5-
1280
56
-0.6
~*OO.-ll~
3-
lb7
l-
1472
J6 JG
-O.lb -0.30 -0.17
tt15.-9 (too.-5oJ
Gb
67
1809
3-
911
5-
GA
67
1809
3-
820
3-
G4
67
1809
3-
359
5-
1450
GA
67
1809
3-
0
3-
lflO9
JG
G4
67
2041
5-
0
3-
2041
JO
G4
67
2124
5-
826
3-
1296
J6
t4
67
2124
5-
359
5-
1765
JG
-.460 .049
(201 191
.030 ,006
.OlO .004
(301 (7)
(201 (10)
I (
71
77PAOO
2J J 2)
.005
(30)
.ooo
(31)
-0.09
961
JG
-.SbO
(30)
,100
I501
to.0
1+27.-a
JG
-.828
(40)
.020
(40)
-0.63
(+oo.-85)
77PAOS
.005
(20)
.OlO
(20)
-0.26
(26)
77P406
.027
OJ
.OlO
(91
-0.74
-.021
(21)
.022
(24)
to.8
(+00,-b
J
77PADil
.Oll
(14)
(20)
-1.0
itoo1-7
I
77PAOI
Atomic
Data and Nuclear
*
77PAO8 I
(30)
Data Tables..
* l
77AL35 77PAOd AVERAGE
JG
59
* * * ”
77PAO6
898
-.030
l
77PAOS
77PAOS
Vol. 25. No. 1, January
1980
60
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-4 Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 c A s 149); 18, 137 (A > 150) See page 34 for Explanation
NIJCLIOE
INITIAL LE UEL E(KEVJ 2J
FINAL LEVEL E(KEVJ
GAHNARAY E (KEVJ
2J
TcCHNIPUE
A2
A4
GA
67
2142
3-
167
l-
1975
JGi
P-N
-.065
(43)
GA
67
2176
7-
359
5-
1617
JG
PIN
-.G52
(24)
CA
67
2190
9-
i413
7-
Jtr
PIN
-.253
(30)
GA
67
2264
9-
1202
7-
JG JO
PIN AwP
-.176 -.595
(30) (20)
.021
GA
67
2bS2
GA
67
2862
GA
67
3191
GA
67
3570
7-
(48)
,016
(26)
0.0
(30)
,190
(34) 120)
(lot
,040
(30)
to.9
(+00.-4 1)
77PAO6
-0.06
4 3J
77PA01)
(10)
(101
-6.5 -2.4 -2.4 -3.7
.I20
(40)
-2.54
(20)
-.030
(
( ( (
AtP
ii-
1519
9-
1343
JG
ASP
11+
2074
94
IL17
JU
ArP
-.970
(20)
,340
(20)
-1.60
I
7J
15+
3032
JG JG
ArP
-.690 -.598
(20) (13)
.020 .029
(20) (9)
-0.24 -0.233 -0.235
(
4)
(24)
792001
(21)
AVERAGE
(401
-0.23 -0.14
(11) t 5J
76SA39 AVERAGE
t s
GA
69
1106
5-
GA
69
L923
7-
1923
7-
13t
0
872
3-
872
GM
3-
234
GM
7-
567
GU
1336
574
546
5-
1350
GH
C,PN 1052
672
1336
514
.070 -.510
.007
-.a30
.208
,150
l ooo
(23)
-0.06 -0.09
( (
7) 6J
76SA39 AUERAGi
t 1)
(23)
,070
(1201
-0.01 -0.02
( (
7J 5)
76SA39 AVERAGC
*
-0.13 -0.19
t 3J ( 5)
76SA39
*
AVERAGE
*
(15)
.053
87
i-
146
JG
PIN
GE
69
233
3-
0
5-
233
JG
PIN
-.026
(4)
GE
69
374
3-
i-
287
JG
PIN
-.Q29
(4)
(83) (201
to.19
(
7)
78PAl5
-.OlO
(101
+0.27 to.28
( (
4) 4J
78PA15 AVERAGE
* *
110)
SO.li
40.11
( 1) ( it
78PAi5 AVERAGE
l
-0.17
t
91
(
31 v-2
,000
Gi
69
374
3-
0
5-
374
JG
PsN
.ooo
(101
,000
(10)
GE
69
862
7-
0
5-
662
JO
PIN
.300
(201
.a40
(2aj
GE
69
il69
3-
GE
69
lib0
3-
GE
69
1196
5-
GE
69
1307
3-
GE
69
1307
GE
69
1351
GE
69
1415
5-
GE
69
1415
s-
374
927
JG
PsN
i-
1073
J6
PvN
-.040 .020
-0.6
(20)
to.31
(70)
.150
170)
-0.7
(301
to.3
A*N
I-
1220
JG
PIN
5-
1307
JG
PIN
398
9+
953
JG JG JG
PIN 0,PN O.PN
233
3-
ii82
JG
PvN
5-
1415
JG
P.N
-.050
(20,
JG
PsN
-.240
(20)
JG
P.N
-.170
(70)
O
0
GE
69
1466
9+
398
9+
GE
69
1479
7-
933
5-
GE
69
1613
7-
0
5-
GE
69
1995
5-
233
3-
GE
69
2019
13+
1351
it+
1068 546
GE
69
3076
15+
1407
1407
13+
13*
78PA15
1)
7QPAl5
.460 .390 .480
(301 (10) (341
.030 ,090 .027
(401 (10) (41)
.I10
(30)
,020
(50)
+0.55 +0.65 to.79 40.73 to.49
i 3s (12) (t10,-18J ( 6) (101
. a40
(30~
-0.65
(10)
7BPAi5
130)
-1.43
1101
7dPAi5
.ooo
(60)
eo.05
(
5)
78PAl5
(70)
-0.05
(
3J
78PAi5
(1OOJ
-0.7
(20) I301
l 0.51
-.090
JG
AeN
-.bbO
(do)
,150
66.3
JG JG
0 *PM O.PN
OsPN
GE
69
4267
19-
3749
if-
519
JG
OIPN
GE
69
4595
Zl-
4.267
19-
327
JG
OtPN
79ALO8
iJ
762
JG
I
(
(601
1669
r-4
,250 .450
120) (8OJ
.060 -.020
tt10,-5
r0.45
.020 .467 -.450
.040 -.291
(50) 134)
-.120 .035
(401 (42)
(70)
-.oto
(401
(70)
-.
(14)
-.ooo
020
40.10 40.62 40.62 -0.13 -0.150
76PA15 79PAi3 792002 AVERAGE 78PA15
J
(10) ( 5) (331 (+6 (+3 (+3 ( (i4)
.-5 .-I s-4 2J
* *
78PAi5
(
-.260
AvN O-PM
78PAl5
0.0
PIN
J6 JG
t
(40)
JG
1348
76PAL5 AVERAGE
6)
1*5
to.521 is*
I
,000
(20)
-.020
(
l
711PA15
(20)
.020 -.ozo
.070
1613
(+24.-3
(50)
JG
87
-.710
(+3
,000
822
-.oia
t2.4
l 2.0
(2OJ
(30)
3-
3lit
3-
l
,000
(10)
3-
a7
7tlAL32
(141
233
233
79AL32
.OOl
69
87
-.042
78AL32
(91
GE
2755
77PAa& 7 dAL32 AVERAGE 7aAL32
2J 2J 11
JG
3-
69
77PAOB
1132
672
GL
J
9-
69
69
1062
,024
REFERENCE
1519
GA
GA
7711
DELTA
79ALOd 79PAl3
l
792302
l l
AVERAGE J I I
* * * *
74F312 792D02 AVERA6E 792002 AVERAGE
(90)
to.17
I
2J
792002
(21)
-0.02
(
3)
792002
* l
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 c A 4 149); 18, 137 (A > 150) See page 34 for Explanation
INITIAL NUCLIDE
;4
GA
GP
G4
69
LEVEL ElKEV)
71
71
71
It
71
FINAL LEVEL ElKEV)
ZJ
487
5-
512
3-
512
D
965
0
5-
7-
1107
ZJ 3-
l-
390
3-
GAllMARAY EIKEY)
0
965
3-
3-
5-
487
122
512
965
143
TECHNIPUE
GM GM GG GG
A4
A2
386 620 366 620
.023 -.I99 .029 -.192
(6) 171 17)
110)
-.lJ39 .007 .020 .020
GN GM GM
366 386 596
.031 .004 -.113
1141 1201 145)
,165 -.003
GN GM GG GG
386
-.042 -.003 ,026
113) (13) 1121
-.012
-.01a
1141
GM GN
596 366 596
386
-.112 -.079
386
GM GM GN
366 366 965
GN GG
366 366
.039
.04?
132) 1121
111) 118)
.015
,006 .ooe ,012
-.107 ,016
-.llb
-.172
1401
-.014 -.030
-.107
lb)
-.043
-.108
17)
DELTA
(10) (101 112) 1161
(25) 1241
159) 1251 120) 116) 1231
145) 1151
119) 127) 150)
(IOI
REFERENCE
+0.12 -0.04 +0.06 -0.024 -0.004
( 5) 1 8) 1 31 113)
1111
-0.2 to.23 -0.5 -0.01
1+24r-3 122) 1+13r-5 1*16,-131
-0.08 -0.20 -0.46 -0.32 -0.25
~*12*-101
to.6 l O.58 +0.58
1*9 1*9 lt9
;.I
71
71
1107
I-
2247
7~
ce7
5-
1494
94
620
753
,024
110)
1-3 r-6 ,-8
76SA39
7bSA39 78KROb 78KXOb AVERAGE ) I 1
1 4) 1 6) 1 6) 129)
+0.01 -0.11 146 It6 148
76SA39 7BKR06 7OKR06 AVERAGE
76SA39
76KqOb AVERAGE 76SA39 78KR06 76KRO6 AVERAGE
r-3
)
r-b
I
v-b
1
76SA39 78K~O6 AVERAGE
7bSA39
GM GM
386 366
.093 ,043
1291 19)
-.053 -.003
146) 112)
0.00 -0.085 -0.078
1 5) (15) 114)
78KRO6 AVERAGE
.150
120)
-.020
130)
-0.23 -0.20
1 5) 1 3)
77Kii6 AVERACE
-.050
1401
-0.5
l+b
170)
-1.96
1+40.-301
GE
71
590
I+
196
9,
391
JG
A.N
GE
71
1027
5-
500
3-
527
JG
AWN
-.650
140)
GE
71
1096
7-
175
5-
921
JD
AvN
-.b60
160)
GE
71
1205
5t
831
3,
374
JG JG
P.N A.N
-.063
143)
,170 -.006
4s
75
265
3-
0
3-
265
GG
136
-.033
12)
.007
AS
75
260
5-
0
3-
260
GG
121
-.414
181
MB
91
2330
ii*
0
9,
2330
56
P.N
-.142
136)
MB
91
2414
ll-
1965
13-
429
J6
MB
91
2660
15-
2034
I?-
626
JG JG
P.N
.066
LI,lN A.2N
-.160 -.220
14b) 1501 140)
(521
74111132 77KEl6 AVERAGE
16)
-0.042
1141
7w311
t
-.OlO
113)
-0.426
121)
78VOll
t
,065
134)
-10
1+27,-3
1
77SC26
144)
-0.21
1 7)
77SCZB
.030
160)
.ObO
140)
-0.02 -0.045 -0.03
1 5) (45) 1 3)
768914 79FI06 AVERAGE
-.020
0
5,
1363
JG
MT
40.48
MO
93
1520
7+
0
5+
1520
JG
HT
t1.3
f:.
93
1516
0
9t
1516
JG
61
77KEl6
1141 1 9)
7+
111)
* *
77~E16
111)
1363
-.086
I
0.00 0.00
93
Ss2NZP
e-4
0.00
no
ii+
I
1 0) 1 4)
.o.os
r1.3 to.72 to.73
I
116) 1 5)
-0.002
GA
765639 76SA39 78Ki06 78K106 AVERAGE
.155
Atomic
1171
Data and Nuclear
-16.6
lt6
r-6 1
6)
1+29.-211
Data Tables,
I
t
77BEl9 77BEl9
786R25
Vol. 25, No. 1, January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A c 57); 19, 363 (59 s A G 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIOk no
91
no
95
NO
95
INITIAL LEVtL EIKEVI 766
?+
821 1074
TC
95
627
TC
95
957
FINAL LEVEL E(KEVJ
ZJ
GAHNPRAY E(KEVI
25
0
5t
34
0
5t
7+
0
5,
5+
336
114
T3
95
1549
15*
TC
95
.25&B
214
r:
95
4294
27+
Nd
97
1146
7t
n0
97
1750
5*
Na
97
ia52
5+
0
682
766
TECHNIQUE
JO
HT
JG JG
RF UT
JG
(40)
to.17
(17)
.I00
(20)
-2.1 -2.1
( I
(701
t1.2
(25)
(20)
-0.02 -0.04
I I
(1101
to.09
(17)
78U405
JG
4r2N
363
JG
4.2N
-.235
1101
3919
294
375
J6
4r2N
-ru50
(90)
9t
1148
GN
114a
7t
602
GN
1148
74
703
GN
(19)
t0.11 to.11
( I
6) 6)
76KRO3 4VERIGL
:I
1146
,504
120)
+0.19
to.19
f I
a) a)
7.3KR03 AVERPGE
** **
GN
216 PIN 325 325 PeN
5*
325
5*
460
GN GN JG
It
569 c”: JG
rc
97
856
74
rc
97
856
7t
r3
97
970
1127
7+
TC
97
rc
99
141
74
rc
99
921
3,
RI
103
650
It
216 0 216
lit
,360 -.a40 .ooo .137 .a70
.250 .299
216 216 PIN
.024
(15)
-0.037
(29)
,002
(151
-0.042 -0.042
(30) (308
to.31
I
5)
79XEOl
(20)
-.OlO -.a60
150)
t2.2
(
3)
770i33
-.OlO
1201
-0.6
I
5)
79XEOl
(201 (17) 160:
-.020 -.009 .030
1110:
(LO: (71
)
79XEOl
*
AVERlGE
l
I
2)
79XEOl
I
7)
(CO)
-.030
-3.9 -2.2 -3.2
I
5)
718E33 79XiOl AVERLGE
141
GH
740
-.07a
(5)
St
7kO
GN
131
9t
557
BNN
13)
(311
-.OlO .020
-.DlO
.004
Atomic
t a1
*
79XEOl
to.3
190)
62
.-1
t
l
(20) (40)
-.500
-.153
it6
l
77BE33 77KRO3
(20)
P.N
53
(14) (14) (tZ(tr-671 IlO)
l
778E33 77KRO3 79XEOl AVERAGE
.030
J6
.Qb4
to.075 to.iza to.67 to.102
I
-.OlO
-.090
9t
I
s-4 9:
(20)
PIN
0
141
120)
JU
1127
(20)
(10)
II01 lt43t'311
-2.3
056
-.060
,000
.oia
-0.01 -0.56 to.5 -0.12
iSOl
9+
216 PtN
120) 127)
, 070
(40,
GN JG
70KPo3 AVER4GE
(30)
-.I10
755
120)
78KR03
(208
PIN
.a10
126)
(11)
JG
9t
93
-.ae.a
.OOO
fill
640
0
iai
,200 -.a56
7+
7,
:
-.015
109
765
7au405 AVER4GE
(13)
7t
97
t
.410
PIN
r:
Tan405
l
1146
JG
463
*
78K903
216
l-
31 2)
7aft405 AVERICE
1+23*-15l
9+
97
7an405
1: 1:
to.50
114s
31
l
(19)
1750
5ao
,260
*
-.015
GN
97
.I00 -.a30
l
(131
GN
T:
(70)
l
.410
355
JCII
.520
602
5,
216
*
.ooa
1750
54
77YIlO AVERLGE
(20)
3t
705
5) 5:
-.400
2106
97
t I
4.2N
97
1:
-0.74 -0.74
JG
6b7
216
t
957
N3
54
77S:ZO
9t
256
325
I)
(40)
5t
97
I
-.a50
19+
l
I I
A,ZN
la52
TC
I
770El9 77S:ZO 77YllO AVERLGE
1-9 5) 4:
0.07
2184
0
(ii?) (+B
JG
3+
ft
-0.14 l 0.040 to.042
291
2106
216
(150)
7t
97
97
REFERENCE
l o.ii .340
1st
0
DELTA
UT
NB
TC
44
T
621 1074
A2
(140)
-0.7
(6)
to.076
(14)
76PRlb
t
14:
-13
I
76PRll
t
135)
-0.175
(758
77R402
t
Deta end Nuclear
tt4
DataTables.
r-5
21
I
79x501
Vol. 25, No. 1,Janoary
1960
K. S. KRANE
63
~2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplemen;to ADNDT 22, 269 (A-< 57); 19, 363 (59 s A s 149); 18, 137 (A > 150) See page 34 for Explanation
FINAL LEVEL EIKEV)
INIlIGL NUCLIDi Ri RI
105 105
LEVEL E(KEVl
149 392
2J 9* 3-
0
130
2J 7t
I-
GAWNARAY E(KEVB 149
263
*L(
105
639
7t
149
9t
489
44
105
706
it
469
3t
316
TECHNIQUE GN
GG GG GG GG GN GN
105
RI
105
969 1345
393 393 393 413 393 413
.122
.3Gb
114)
-.348 .370 -.293
(16) (6) (9)
GG GG
469
469
-.020 -.030
GG
469 469
-.OIb -.Olb
5+
469
3,
500
GN
469
3+
469
3t
075
GG GN
469 469
(19)
(20) (30)
149
.220
.G67
DELTA
A4
.420 .420
GN
GN
Ri
575
A2
(22)
(IO) 120) (4)
(3) 120)
-.ooo
(14)
-.096
(18)
-.030
.003 .012 ,021
.JI8 .085 -.030
.OOl -.006
-.055 .009 .009
105
PI3 105
PD
PO
PD
PO
105
105
105
105
306
319
442
b51 651 673
7+
0
5,
0
0
r+
3+ 3t 1,
319
280
260
5t
5+
5+
5t
3t
3t
306
319
442
331
370
393
GN JG JG
183 Ce3N HT
JG JG
C,3N MT
JG JGb
GN
GN
GN
C13N C.3N
319
280
200
-.200 -.048
.208
-.610
-.104 -.09-S .149
79SA23 AVERAGE
*
76GUO9
**
765207
l *
to.34 co.34
( (
II
-0.24 -0.24
(
4)
( 61
-0.18
2) 41
77KR09
l
-0.27 -0.16 -0.14 -0.16
( ( l 1 (
II
77KS09 79SA23 79sa23 AVERAGi
* * * *
(361
to.25
(
2)
79SA23
(301
-0.19
(51 (6)
-0.16 -0.20 -0.20 -0.20
(33)
8171 (191
(101 (121
ttc (*7
18
II 1)
,-3 ,-8 ( 2) ( 11
1 I
( 11
(30)
l 0.7
(22) (2.51
l 1.3
(t6
t1.3
I
31 v-4 51 e-3
76GU09 765:07 77KRO9 79SL23 AVERAGE 7 95423
)
77KR09 79SA23 AVERAGE 778132 77RI05 77YIlO
(331
,043
(71)
-0.39
(10)
,015
(10)
l 0.02 +0.06
( 1)
-0.07
110)
to.11 l 0.103
(
8)
77RIO5 77iIIlO AVERAGE
* * *
-0.33 -0.20 -0.23
113) ( 71 ( 6)
77RI05 77RL05 AVERAGE
*
-0.091
(11)
-0.084
(
7)
770132 AViRAGE
* *
-0.07 -0.06
I 6) ( 4)
770132 AVERAGE
i
l 0.10 to.08
( 61
77BA32 AVERAGE
t *
-0.04
(
41
(35)
(21)
(ill (lb) (131
,010
.031
-.OlO -.030
-.014
(24)
(10) (451
(201
( II
( 51
782
9+
442
7+
340
JG
C13N
PO 105
902
9*
442
7,
460
JG
C.3N
.I00
lI50)
+0.24
(
9)
77RI05
PO
105
902
9*
306
7+
596
JG
C,3N
-.OIO
(271
.oto
(401
+0.16
(
3)
77RtOS
PD
105
782
9t
230
JG
C.3N
-.33O
(150)
,210
(190)
-0.05
(
91
77RI05
PO
105
I271
ii+
9t
469
JG
Cs3N
-.460
(50)
.040
(60)
-0.13
I
6)
77RIO5
PD
105
1671
13,
1271
11t
coo
JG
Ce3N
-.380
(40)
(50)
-0.08
1 4)
77RI05
PO
105
1763
15-
970
15-
793
JGG
C.3N
t1.0
( 51
77RIO5
PO 105
1962
17-
970
15-
991
JG
C.3N
7711105
PO
105
2281
17-
970
15-
1311
JG
C.3N
PO
105
2345
19-
1742
19-
603
JG
C13N
PO
105
2704
19-
I742
19-
962
JG
PO
105
2776
21-
1742
t9-
1034
JG
255
JG
C13N
JG
C13N
1012
1lC
7.32
-.290
(50)
(1IOl
-.070
-.050
(801
77RIOS
(33)
to.46
(10)
(700)
-.400
(800)
t1.3
(
.416
(34)
-.a40
(50)
-0.01
(601
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(40)
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(50)
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7711105
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(60)
,140
(80)
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(25)
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2552
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105
2901
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1742
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105
3119
21*
2.907
19+
313
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C.3N
PO 105
3154
23-
2700
23-
453
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C.3N
PO 105
3469
23+
3119
21,
349
JG
C,3N
-.024
(32)
PO 105
3526
25+
3295
23,
233
JG
C13N
-.690
(100)
PO 105
3695
25-
2700
23-
994
JG
C.3N
1159
l 030
(50)
1 I
105
PO
-.I09
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.BOO
l
( (*4 (t13,-6 ( 4,
t1.3 80
RiFERENCE
.006
7)
Cl
77RI05
(401
to.09
( II
77RI05
(801
-.030
(12OI
Cl.3
( 9)
77Rt05
(31)
-.OlO
(40)
to.12
(
7711105
(501
-.130
(27)
13101
.040
3)
(801
0.0
( 6)
77RI05
.OIO
(501
to.14
t
21
77RIOS
.140
1130)
-0.27
(
71
7711105
1400)
t1.5
(101
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77RL05
t t
t
l
I
l
K. S. KRANE
-.------
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
-
Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 S A c 149); 18, 137 (A > 150) See page 34 for Explanation
rABLE
N>CLICE
INIlIAL LEVEL cfKEVJ
III.
FINAL LEVEL EfKLVJ
2J
A;
105
53
9+
A;
105
31t7
3-
A;
105
669
A;
105
917
105
1024
4G
105
1666
13,
669
4;
105
lb61
15,
917
PG
105
173c
1st
26
l-
347
JG
Ar2N
9t
616
JG JG
ALIZN 0,PZN
53
4;
7-
7t
0
669
lit
k33
917
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RAY EfKEV)
2J
25
il+
13,
GAMtfA-
249
5-
E
JG JG JG
A2
Av2N At2N O,P2N
.310 .241
l 0.02
ft9
(50)
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f7OJ
t1.26
ft25,-59)
79KAO5
134
764
JG JG JG
A, 2N A.2N OvP2N
.259 .19u
150) (30)
.OlO
(37)
f1OOJ (40) (501
to.36 l .29
.lk9
to.29
f f f f
78liIOl 79UA 05 79PDl3 AVERAGE
ft39.-311
817
JG JG JG
A.2N A.2N OtP2N
-.715 -.920
-1.112
-.074
JG JG
A.LN As2N
JG JG JG
17+
15-
15-
290
98
126
.lOO
(130) f6OJ
-2.05 -1.04
,260
(140)
-1.0
,170
(15)
-1.6
f 2J f 1)
78HfOl 79K405 79PO13 AVERAGE
f
4)
79PO13
f7OJ
to.09
IlO)
.190 ,050 .029
f2OOJ (70)
fb5J
to.131 f 6) to.11 ft6 .-5 to.09 f 5) to. 137 f 6J
-.765 -.770
(70) (30)
,280 .440
(301 (40)
-1.5 -2.05 -1.86
Ar2N A.2N O,P2N
-.155 -.230
(20)
,023 -.020
(30) (201
to.077 0.00 -0.12 to.063
JG JG 56
Ar2N A.2N OtPtN
-.095 -.090
(101
(801 (60)
to.103 to.08
2596
17-
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296
JG
0,PZN
A;
105
2151
19-
2596
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155
JG JG
A. 2N 0,PZN
::
As2N 01P2N
449
-.014
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-.170 -.184
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f5OJ
(10)
(90)
(101 IIOJ
(601
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(27)
ft4
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110) fl3J
to.04
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to.33
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At
105
2936
21-
2751
19-
185
JG JG
A.2N O.PZN
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f1OJ fllJ
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f*4
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233
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(30)
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240
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(10) (15)
(201
to.02 to. 05
f*3
105
3008
19-
A;
105
3176
23-
2936
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105
3511
25-
3176
27-
3511
A;
105
3928
4G
105
4362
29-
3928
23-
2s
27-
335
517
434
56 JG
A r2N OtP2N
J6 JG
A.2N OaP2N
JG
O.P2N
-.190
-.105 .0&l
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130) (141
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(160)
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31
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7 WI01 79K405 79?313 AVERAGE
J J
79KA05 79POl3 AVERAGE
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1
7 9K405
t-2
1
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w-2
J
79KAO5
r-1 11
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79KA05 79PO13 AVERAGE
f
9J
9) 3)
79KA05 79013 AVERAGE
(10) f 9J r-6 f f
78HIOl 7 9KA05 79POl3 AVERLGE
79KA05 79PD13 AVERAGE
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7'3tfIOl 79u405 AVERAGE
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f
f
40.19 CO.06 +0.07
.050
(351
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f
0.00
J
78HLOl 79KA05 79POl3 AVERAGE
79P313
f
to.046 to.015 *0.077
J
5) 61
r-3 4)
f f
(19)
(110)
f 6J .-1 f f
105
AS
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A;
2775
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J
ft28.-361 ft23r-291
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51 31 41 2J
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105
21,
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(20) f6OJ 193)
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78HIOl 79KA05 79po13 AVERAGE
.690
A,2N A.2N O,PZN
2762
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A.2N
JG JG JG
105
f15J r-2 f 4) r-12)
JG
341
A;
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997
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460
(18)
to.105 to.08 0.00 to.091fte.
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Ii+
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(340)
lb81
2S70
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J
ft2
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17t
17-
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to.35 l 0.40
(310)
2022
2596
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40.43
,041
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10s
105
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(25)
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A;
4G
(101
JG
-.a94
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79KAOS
590
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8
(201
JG
2596
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f65J
297
105
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1
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17t
19*
r-7
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(401
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1978
2313
REFERENCE
0.044fts -.120
105
105
DELTA
n/n
A;
A;
A4
2) 2)
f 4J
J
79KAQS 79P313 AVERAGE 79PDl3
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections,
December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 s A s 149); 18, 137 (A > 150) See page 34 for Explanation
INITIAL NJCLIOE
LEVEL EtKEVJ
FINAL LEVEL E(KEVJ
ZJ
GAMMARAY EJKEVJ
2J
co 105
260
5,
0
56
260
JG
0.3N
co
bOC
7+
0
54
604
JG
0,3N
105
A2
T~ECHNLPUE
.176 -.704
DELTA
A4
REFERENCE
(10)
.ooo
113)
+0.065
(a51
7clsrot
(291
.170
140)
-0.85
(451
78S101
(
78SlOI
105
771
94
131
7+
640
Jt!
0.3N
-.185
(I21
.139
(1'3)
-4.3
CD 105
632
9+
131
7,
701
Jb
0,3N
-.500
(50)
,130
480)
-1.95
(351
7esro1
1686
15t
705
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0.3h
-.120
140)
.050
(50)
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(
78STOl
0
5,
303
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(87)
-0.05
93
7+
33
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L/L
646
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NIv3N
co
co
105
PO
107
303
7t
A;
107
IZb
9+
AS
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773
11+
126
9+
A;
107
991
13*
773
11+
218
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NIv3N
-.065 -.540
2391
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t*3
61
81
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107
1578
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134
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107
1800
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991
13*
808
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NIr3N
A;
107
2412
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2298
15-
I14
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NI,3N
-.145
112)
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107
2543
19-
2412
17-
131
JG
NIs3N
-.126
(15)
A;
107
2734
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191
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107
2748
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205
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2)
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(19)
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l 0.06
t
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A;
107
3035
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2734
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301
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l 0.12
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308
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121)
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107
34bl
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312
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-.208
(251
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I
41
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A;
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3467
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3056
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NI.3N
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3683
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AG
107
397.3
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41
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107
co
107
609 3049
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311
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109
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311
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203
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109
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0
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109
1420
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402
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4.2N
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109
1901
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109
2195
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1421
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(20)
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109
2869
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2532
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IN
109
2958
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49)
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109
3067
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(30)
89 535
-.020 .345
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40.40
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Atomic
Data and Nuclear
r-4
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79v413
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t+9
4 3)
Data Tables.
* *
79UAi3 )
79VAI3
J
79VAl3
Vol. 25. No. 1. Januaty
1980
K. S. KRANE
E2,
Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT-22, 269 (A < 57); 19, 363 (59 s A 4 149); 18, 137 (A > 150) See page 34 for Explanation
WUCLIOE
INIrIAL LEVEL EtKEV)
25
FINAL LEVEL EfKEY)
2J
GAllNARAV EIKEV)
TECHNIPUE
A2
A4
IN
109
3122
21-
2958
19-
164
56
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-.I97
(91
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109
3202
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3092
19-
110
JG
A.2N
-.240
(20)
IN
109
3202
Zl-
2958
19-
244
JG
Ar2N
-.210
(20)
IN
109
3410
23-
3202
Zl-
208
JG
Av2N
-.217
(10)
-.032
IN
199
3462
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3122
21-
340
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A.2N
-.097
fill
IN
109
3800
25-
3410
23-
390
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A*2N
-.151
(12)
60
7,
NN E
1970 L/L
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130
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DELTA
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-.030
(40)
sa
115
sa
115
3256
98
115
3446
23-
3004
21-
442
J6
sa
115
3693
21*
3257
19+
437
JG
-.560
.041
ll20)
778208
41
7+
3004
-.300
77830.3
I 4)
050
(60)
-.lOO
f
.026
115)
-.040
(30)
l 0.166
(131
77BR08
-.505
(17)
(20%
-0.21
(
6)
778100
I
6)
-.230
66
.ooo -.050
.OlO -.070
Atomic
110)
77BROI
2)
(30)
to.116
(50)
-1.0
(601
+0.12
Data and
Nuclear
(t&O,-6 I
Data Tabler.
778ROI 1
3)
77BROd
770ROI
Vol. 25, No. 1, January
1990
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 d A d 149); 18, 137 (A > 1.50) See page 34 for Explanation
NUCLIOi
IN
117
INIJIAL LEVEL E(KEYJ
FINAL LEVEL EIKEV)
2J
389
3-
IN
117
1065
IV
117
1432
9*
IN
117
1432
9*
TE
117
578
7+
It
117
682
TL
117
821
2J
l-
315
ii+
0 1065
9* ii*
GAMIIARAV EIKEVJ 273
1065 366
reCnNIaUE
GG
A4
A2
1303
.326 -.070
(9)
-0.10
(50)
40.3
GG
1029
GG
564
.060
140)
40.15
GG
564
.09(1
14111
-3
9,
1432
274
5,
303
JG
Ae2N
-.220
(160)
74
274
5,
407
JG
A.2N
-.600
(501
9+
682
7,
140
JG
At2N
-.070
(100)
Tt
117
521
9*
53
119
210
7,
0
296
0
1213
94
270
7,
942
GN 66 GG
270
.467 .216 .463
(441 (421 (37)
TE
119
258
34
TE
119
320
54
Tf
119
u67
9-
280
TL
119
669
7+
320
TE
119
946
rt
119
1281
ii+
1:
119
1586
13+
ri
119
2121
21-
1638
TE
119
2292
23-
2121
SB
121
SB
121
SB
121
SB
121
946
9+
7+
1366
II-
1,
0 258
3,
ll5+
979
913
258
63
GN GM GN GG
154 270
270 976 270 270
.250 .230 .262 .212
(50) (50) (48) (33)
(10)
-0.12 -0.10 ;",.;, . -0.11 0.13 -0.31 -0.18
(+6 s-5 I+9 ,-I ;:;51-6 .-a 4 2) tt3 q-4
-0.11 -0.118
1*15,-13J
(61)
l 1.0
t+11,-7
)
771ao3
-.039
145)
-1.0
<+14.-5
J
-.OOb
(54)
-0.85
(+20,-231
-.03B
(43)
77BE52 77YAO3 77YAO3
.021
-.
,090 090
-.091 ,095
,010
(57) (34) (50)
(1OOJ
(100) (501 (461
(46
r-7
I
(16)
-O.bP
(*lg.-12)
-0.72
t+141-10)
-0.47 -0.9 -0.52 -0.33 -0.38
(*31,-17J (*il.-6 (442,-16) I+it,-lOJ
(+ll,-8
+0.02
( 5) (+14,-s (+6 ,-5 t+6 r-5
A.2N
-.050
(20)
-.050
(20)
l 0.17
(
JG
A.2N
-.060
(801
.160
(130)
l 0.12
(12)
79tlA47
6J
79HA47
207
JG
A.2N
1201
-.OlO
(30)
-0.235
(35)
79HA47
349
JG
A.tN
-.350
(140)
,170
(160)
-0.27
(251
79H1\47
A.2N
-.440
1240)
.270
(2.50)
-0.41
(391
79HA47
A.2N
-.530
(110)
JG
A.2N
-.99J
(240)
19-
4.33
JG
A.2N
-.a00
(401
Zl-
171
JG
Ar2N
-.350
(601
.130
-.llO .OOO -.020
(140)
-0.33
(17)
79MA47
(3301
-1.02
(58)
79m47
(60)
-0.355
165)
7 9HA47
180)
-0.045
(4SJ
79nA47
77KU23
94
37
7,
909
JG
PIP
.184
(72)
+O.Cb
(*lg.-131
37
7+
998
JG
P.P
.128
(42)
+0.35
(
1145
9+
37
7+
1108
JG
P.P
(65)
l 0.15
t+9
1385
3+
5+
1385
J(i
P.P
+1.2
(+56.-8 (*7 v-9
-.009 .254
(691
l 0.44
67
Atomic
Data and Nuclear
Data Tables.
77KU23
7) .-a
*
* * * *
JG
JG
l
77BE52 77YAO3 77YAO3 AVERAGE
GG
306
5 l
I I I
-1.0
JG
II
I
(40) (44) (36)
243
*
* x * * *
.009 -.031
335
*
67BE47 67BE.47 778652 77VAO3 AVERPGE
J
154) (34) (25)
7*
*
AVERhGE
-.102 .263 -.305
.lOO
*
* * * *
154 1213
-0.41 -0.41
*
67BE47 67BE47 77BE52 77BE52 77BE52 77YAO3 77Y403 7711103 77YA03 AVERAGE
1366
9+
0
I
t*19*-121
9+
1036
J I J J
NM
703
11,
,056 .006 ,040
(1001 (52) (371 (51
GG
946 1281
,040
(36)
119
13-
19HAC7
(37) (231
SB
2279
at
-.OOl
(441
ii9
t
(5)
.170
sa
(80)
(50) 135)
154
270
.120
-.198 -.Ob5
GG
9+
79HA47
1096
lb4
1249
9J
-.020 .045 -.006
7+
119
(
1201 (20)
1049
73GLO9
io.10
-.120 .079
9+
I
-1.1
1137 2090
1213
~*20*-2
(18OJ
-.200
GN GN GN GN MU E GG GG G6
119
79GLO9
79HA47
270
.0?3
(20)
(45)
5,
-.139
79GL09
-0.95
(40)
1137 2090
J
(70)
.0110
-.580
-.lBl
79GL09
.-1
79HA47
A.ZN
1096
2J
(201
JG
.062
f 1*2
-0.09
525
1137 2090 L/L
REFERENCE
(260)
-.JZO
7+
SB
sa
DELIA
I
77KU23
J 77KU23 J AVERAGE
Vol. 25, No
1,Januaty
l
*
1980
K. S. KRANE
E2,
MI Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 S A 6 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIOi
INITIAL LEVEL EtKEVl
FINAL LEVEL E(KEVl
25
TE
121
212
34
Tf
121
438
9-
293
TE
121
831
9+
443
GANUARAV E (KEV)
2J
1t
0
ll74
212
TECHNIPUE 56
Ar2N
A2
-.030 .140
A4
DELTA
L3OJ
,000
(40)
to.21
REFERENCE
(
7)
79H447
145
JG
As2N
(601
.ooo
(801
-0.29
(101
79HA47
387
JG
As2N
-.27O
(501
.140
(70)
-4.6
(
6t
79H447
t
TE
121
2015
21-
1654
19-
362
JG
Ae2N
-.520
(40)
-.OlO
(501
-0.15
t
4)
79HA47
TE
121
2331
23-
2015
21-
316
JG
Ae2N
-.380
(501
.ooo
(701
-0.06
(
Cl
79HA47
S8
123
160
5*
7t
i60
JG
P.P
-.049
(55)
-0.9
(4439-9
TE
123
c40
3+
34
281
JU
HT
-0.04 -0.06
( (
4) 4)
79sc13 AVERAGE
TE
123
468
3*
1,
440
JG
HT
-3.7 -2.1
(121 ( 11
AVER4GE
a
40.30
t (
51 4)
79sc13 4VERAGE
*
l 0.22
(101
79sc13
Ti
123
505
5+
0
159
0
159
3+
346
J6
MT
TE
123
669
54
159
34
529
JG
n1
l 0.54
Ti
123
784
34
159
3,
625
JG
HT
t3.6 t1.7
I
125
243
94
125
233
ll-
a4
125
505
13-
233
li-
19-
1096
ll-
BA
125
I
127
I
127
1736
58
375
l+
i4
127
417
54
I
127
011
54
I
127
651
9+
I
127
991
54
127
I
127
3+
55
GN
99
9-
134
JV
Cs3N
-.592
(16)
272
JG
C,JN
-.742
JG
C,3N
0
7+
I
I
136
991
54
1094
54
203
b40
54 3,
58
0 56 417 0 417
58 172
GN
GN GN
188
145
145 203
(6)
-1.27
(45)
78GI08
-.OZO
(1401
40.26
(15)
78GIOI
(11) (3)
-0.081
( aI
-0.083
f
-0.076 -o.oee
(111
-0.005
(
76LE23 AVERAGE
* *
76LE23 76LE23 AVERIIGE
*
6) 91 51
77KUl7 7bAUO6
t t
5)
(451
l
'
-0.40
(t60,-35)
78AVOb
t
7+
594
JG
NeN
-.400
(200)
-0.33
i449.-30)
78AYO6
t
5t
573
JG
NvN
-.200
5,
991
JG
54
678
(1701
-2.5
(151
78AVO6
NIN
.ObO
(18)
+0.6
(
3)
78AUO6
JG
NsN
.lOO
(60)
to.1
(
2t
74AVO6
(71
-0.01
(
21
76LE23
JG
AsN
-.159 ..?oo
(20)
.ODD
(20)
*0*03
1+3
(20)
.ooo
(20)
-2.11
(4il,-7
r-2
I
791401
1
79IROl
i4
318
JQ
A-N
-.120
3,
2112
JO
AeN
-.4OO
(101
,020
(101
-a.#3
(4.3
.-I
I
79IR41
.460
(201
.030
120)
l 2.0
(44
r-2
I
79IROl
(20)
,050
(30)
.0.6
(41
.'2
8
791~01
XE 129
665
74
321
54
353
JG
A*N
XE 129
822
54
516
74
303
JO
AvN
XI 129
a22
54
32L
54
500
JG
AsN
3+
504
JD
ArN
3ib
.095
(1201
(30)
279
54
1101
.ooo
3,
a22
76GIO6
NvN
40
129
(101
JG
3,
xs
-1.3
417
31.3
40
(14)
5,
XE 129
5*
76LE23
t (
196
321
(101
40.33 to.6
GN
129
t
-0.026
(501 (40)
40
xi
i *
.410 -.060
14
0
79SC13 AVERAGE
.067
(7)
l
50 NsN
0
34
-.OE2 .217
)
l
GN JG
3*
318
-.223
79x13
* *
360
so
129
.lOO
l-91
113) .-3
77KU23
7+
XE 129
xt
.229
(t4
1
-.520 .260
-ail0
68
(10)
-.060
(10)
-0.09
1 2)
79IROl
(601
-.090
(90)
-5.4
(
79IROl
Atomic
Date and
Nuclear
Data Tablss.
9)
Vol. 25, No. 1, Jenuary
1880
K. S. KRANE
E2,
Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 =S A s 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIDE
INITIAL LEVEL EIKEVt
FINAL LEVEL E(KLVt
2J
GAHHARA’( EfKEVt
25
-.650
(501
.160
(401
-0.95
(25)
77GIO2
97
JG
-.430
(30)
.020
I501
-0.3
I
4t
77GI02
9-
339
JG
C, 3N
-.480
(40)
.o.so
(401
-1.2
I
9t
77GIO2
9+
2az
JG
C.3N
-.blO
(301
,320
(loot
-1.34
I
4t
77GIO2
(50)
-0.88
I
9)
77GI02
(bOt
-1.2
1 3)
77G102
277
ll-
181
9-
a4 129
519
ll-
181
aa
544
114
262
129
7+
255
BP
129
b42
13-
277
ll-
365
JG
C.3N
-.700
ISO~
.lbO
8A
129
796
15-
642
13-
154
JG
C,3N
-.460
ISOt
.070
BP 129
682
13-
277
ll-
605
JG
C.3N
BA 129
1044
XE 131
364
xs
131
405
19-
1317
17-
5+
0
3+
0
3+
3*
.130
527
JG
C13N
-.700
364
JG
ArN
-.120
405
JG
4-N
.lCO
(601
(70)
to.50
(251
776102
(60)
,100
(701
-1.02
(5.01
77GI02
Ilot
.040
(10)
-3.1) -3.90
I 3) (151
AVERAGE
l
+1.1
rt71r-431
+4.6
(429,~141
79IROl AVERAGE
* *
(201
to.12
(+5
79IROl
+
(151
+o.sz CO.52
(101
XE 131
723
5*
0
3+
723
JG
A+N
-.ObO
IlOt
cs
133
5*
0
5+
133
GG
466
,353
(161
cs
131 131
620
14
CS 133
lb1
5,
216
0
-.122
(7)
-.ooc
(12)
7+
161
GG
276
-.495
(51
-.054
(6)
7+
406
JG
P.2N
PY
410
3,
91
5+
319
JG GG JG GG
PY
lU7
Pfl 147
PM
147
531
531
531
54
5+
91
5+
420
3+
91
5+
0
54
396
121
440
I
(61 (141
-1.0 -0.41
I 71
(61
-0.34 -0.369
(5)
NN NN NG NN GG JG JC GG
-.022 .027 -.074 -.062 -.059 -.052 .076 -.063
((II
-.a02
(9)
Zf 91 91 91 HT PtZN 91
(16)
-.OlO
1271
1191
-.019 .008
(23) 132) (17)
JG GG
HI 319
.070 -.020
GG G6
91 91
7+
531
JG
MT
408
9+
259
JG
P.2N
667
PI(
147
b8U
7+
408
94
272
6N
408
Pn
147
686
5+
489
r+
197
NN NM NM JC GG
396 396 396 nr 91
.073 .067
-.074
,106
(1st (6)
(181
.003 .009
.OOl
.Oll
(12) (9) (4)
,009 -.040
(6)
(10)
-.015
t15t
(25) (12)
-.017
(26) (21)
(ill (7)
L?)
.OOl
-.002
,010 -.002
(101
(15)
3t
40.17
(+2
r-3
t
(+5
s-4
t 1 t
(+10,-d ( I
l 0.29 l 0.30
,-7 5) 4t
I 1)
to.31 40.30
I
ct
I it
to.037
(56)
+0.013
(40)
to.033
(22)
to.77 to.71
1101 ,-4 I 3t
(2)
-0.40 -0.40
( (
+7.4
(+5
78V311 AVERAGE
*
77SL20
t
79THO2 AVERAGE
*
l
l
77AL34 77AL34
to.02 to.36 to.31 to.31
I+lJ
*
77UO24
I 3t I 7t (14)
to.67
(6)
b
loot
to.57
-.062 -.092 .027 -.OOO
(10)
0.4
115)
IIT 91 P,2N 91
79IROl
I 3) I 31
(13) (131
lilt
-.021
.-2
+1.2l3 +1.28
.230
WI 147
i1+
.OCb
216
0
7+
-.030
(10)
NN
9+
489
-.030
404
CO3
PII 147
-.020
3+
Pll 14r 147
REFERENCE
C*3N
aA
129
DELIA
C, 3N
262
7
A4
A2
JG
BA 129
9+
TECIINIPUE
t
t
COBDl7 665025 7OBLl2 74MO2 77AL34 77AL34 77K024 79Voo9 AVERACE
** *I a* WI WI
77A~34 77AL34 AVERACE
I
l t l *
** **
l
*
ItAL 79Voo9 AVERAGE
* *
3) 3t
77A.34 AVERAGE
l l
I
6t
TTY024
8
l
(1st
.ObO
(201
-.2I53
(10)
.015
(10)
l 0.10
I
31
795205
-.067 -.054 .ObL -.a05 -.034
(9) (20) (12) tsst 134)
l OOl
(11)
l
(2% (21) (511
(24) (46) I 41
608017
.043 .070 .033
-0.017 -0.046 -0.33
615113
l
,026
(5.1)
Atomic
Data and Nuclear
-0.11
(15)
-0.27 -0.22
(101 I 8)
Data Tables.
74BYO2 77AL34 77AL34 AVERAGE
Vol. 25. No. 1. January
*
* l *
WI I)* l *
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 d A c 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIOE
PH
PM
147
147
INITIAL LEVEL EIKEVJ
2J
686
5+
606
PM
147
666
PN
147
1073
El
147
995
FINAL LEVEL E(KEVJ
54
ii+
ZJ
410
3t
91
5*
5t
0 408
9-
GAMARAV E(YEV>
276
595
A2
.008
A4
(11)
JS GN
319 91 CIZN 319
-0030 -.160 .006
112) (201 (2,
GG JG
91 HT
,043 .047
(38) (36)
,005 a049 ,005
OELTA
(19) (26) {5J
to.12 to.27 -0.21
REFERtZNCE
I
147
1122
7t
229
; 6)
77AL34 77AL34 77K324 79SE05 AVERAGE
* * * * *
( I
to.107 to.110
J
,001
(54) (37)
b 7 7
(00) IO01 i001
77AL34 77AL34 AVERAGE
* * f t
-.a44
686
JG
191
.002
(10)
-0.95
(30)
77AL34
9+
664
JG
P,ZN
.32a
120~
.lOO
(30)
t2.0
I
77KD24
370
JG
C&N
,361
(37)
l 039
(43)
t1.3a
(30) (38)
HT
-.116
+L.3A
EJ
4) .-e 31 71
;t9
7t
il-
626
TECHNIQUE
It
893
GN
.ooo
229
Ill)
-.004
3)
77FLO9 AVERAGE
* *
7lVA37 AVERAGE
** **
to.62
;t22.-161
to.62
;+22,-16)
(75)
to.22
;*6
(51)
t2.54
(t95,-60)
77F~09
(4OJ
77FL09 77Ft09
(21)
EU 147
2346
Zl-
1927
19-
421
JG
Ce4N
-.653
(69)
iu
147
2997
23-
2348
Zl-
649
J6
C,LN
-.435
(43)
EU is7
2997
23-
2293
23-
704
JG
Cv4N
.225
(23)
-.033
(26)
to.384
EU 147
3230
zr-
2901
27-
330
JG
C14N
.385
(43)
-.135
(52)
-0.52
(13)
516
JG
,412
(39)
IlOOl
-3.1 -3.1
it25,-13~ ;*25,-13)
(56)
-1.35
(PO)
77F~09
(61)
-19
(too.-13)
77F~O9
;t18.-17)
77SE06 77SiO6
EJ
El
149
149
EU 149
666 910 lb58
9+
JG
LI,JN
.318
(24)
9*
910
74
748
JG
LI.3N
.ObO
(58)
5,
256
GN
ill
.088
(5)
to.65
3t
171
GN
256
.068
(5)
-0.20
(
102 258
.140 -.300
-0.06 -0.21
(tic,-13)
cc: G6 GG GG
275 275 275
.225 .208 ,190
-0.13 -0.099 -9.07 -0.096
I 5J (231 It7 r-6 (141
(114) (40)
+0.2
;t14.-2 ;tz(l.-131 t 1)
P1
151
426
1t
s’y
151
66
I-
151
SN 151 sn
151
70
ia5
105
5-
5-
33-
a
256 0 5
0
5 0
53-
5-
35-
66 65
70
GG GG
275 275
::
240 240
.156 .I69
GG GG GG
240 240 240
100 105
-.219 -.240
-.163 .131
I.30) IlZOJ
-.050 -.060
(29) (15) (40)
-.039
(57) (30)
(90)
(1801 164)
,011
(151
,000
(701
,058 -.034
t0.28 +0.16
;+24.-16)
.046
(62)
-0.006
.012
Ill))
to.015
-.019
(27)
.045
(52)
-.005 .017
(101 (221
.Oll
(158
-O.O45;t60,-531 -0.076 (23)
(14)
-0.13
209
I-
70
I-
139
GG
EU
151
307
5t
197
3t
111
JG
EJ
151
307
7,
21
7+
2D6
JG
74
0
5t
EU 151 EU 151
307
503
9t
21
7t
307
482
J6
JG
.ZSO
(60)
-.060
o-0
.040
(70)
o*o
.069
o*o
.024
65
-.270
o*o
(+6
70
r-5
-0.16
.ooo
(70)
.O.ll
(03)
.139
(1001
to.7 +0.7
(171
,000
(19)
to.27 to.27
I I
-0.A4 -0.50
;+15.-301 ;+15.-12)
-.003
Atomic
124)
Data and Nuclear
)
1
(141
(110)
(201
1
152) 125)
-0.095
SY 152
31
(32) (15)
-.008
77FL09
77F~09 AVERAGE
760
3t
s4
,194
7t
256
70
LIv3N
.-lib
150
151
151
7t
.018
74
PW
sn
150
-.121
;t7
e-6
t tt7 ;+7
Data Tables,
I
51 .-5 .-5 71 71
* *
l l
77H021 77NO21
t t
76BA44 77Wl2 77H321
* l l
AVERAGE
*
768~44
*
77BUl2 AVERAGE
l l
760A44 77BUlZ
t t
760~44
l l
77BUlZ 77nOZl AYERASE
l
*
77HO21
77DRO4 J J
77ORO4 AVERAGE
l
77ORO4 AVERAGE
l
77DPO4 AVERAGE
fi
Vol. 26, No. 1, January
l
l
l
1960
K. S. KRANE
E2,
Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 < A =s 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIDi
so
151
INITIAL LEVtL E(KEV)
FINAL LEVtlL E(KEV)
2J
108
0
5-
GANtlARAY EIKEVI
2J
7-
TECHNIQUE
A2
A,ZW
108
140
63
151
379
9-
s3
1st
395
3-
GO 151
427
;D
151
575
GO 151
507
A4
.osz -.209
(9) (14)
.093 -.017
OCLTA
REFERENCE
(9) (281
-2.5 -0.828 -0.820
( 21 (24) (24)
379
JG
A.ZN
-.091
(4)
.otc
(5)
+0.072
(
106
5-
287
GG
108
-.342
(131
.016
(22)
l 0*2oa l 0.20.3
(16) (16)
5-
108
5-
319
JG
A*ZN
.OCJ
IlOO)
(1lOJ
-0.3u
l-
395
3-
1.30
GG
287
.21tl
119)
.017
(36)
-0.075 -0.075
(24) (24)
79VAI4 AVERAGi
(I i(
3-
395
3-
192
GG
252
(32)
,004
(63)
-0.116 -0.116
(46)
79VAl4 AVERAGE
s
(46) (+48,-3oJ (*48, -30)
79VAl4 AVERAGE
* *
151
587
3-
a
0
108
5-
479
GG
108
-.148 .040
-.350
.030
(23)
+10.4 t18.4
(40)
.lOO
(501
-3.0
151
719
9-
7-
719
JG
A.ZN
812
J-
395
3-
4lb
GG
287
.OCB
(56)
GO 151
012
3-
108
5-
704
GG
108
.040
(20)
GD 151
839
i-
587
3-
252
GG
479
.15b
(12)
0
-.090
(11)
GO 151
40.39 ,007 -.005
(41) (25J
A39
l-
395
3-
444
GG
-.168
287
151
lllb
13*
352
13,
264
JG
A.2N
GD 151
llib
13,
705
114
331
JG
Pi.2~
Gil
151
1210
it-
379
9-
831
JG
A.2N
GO 151
1364
15+
1116
1.3,
248
JG
A.ZN
GO 151
1463
13-
1210
ll-
253
JG
A.2N
-.570
GO 151
1726
15-
1463
13-
262
JG
A.2N
17-
291
JG
Zl-
315
JG
110
GG GG GG GN GN GN
102
GJ
GD 151
2295
19-
2004
to
2915
23-
2600
151
CD 153
c3 G3
153
110
129
5-
3-
0
42
3-
5-
aa
GG
.360
1141
,-5
(
0.00
79VAl4
( (
5) 5)
79VAlc AVERAGE
*
79VA14 AVERAGE
* *
-0.559 -0.559
(14)
(14) ( 5J
77SWOl 77SWOl
.120
(70)
.250
(80)
l .3
t+9
.150
(1301
-.130
(170)
to.20
t+4
(20)
-.OlO
(20)
-0.22
( 5)
77sno1
-.540
(201
.020
(30)
-0.18
(
77SilOl
A.2N
-.540
(60)
.060
(80)
-0.13
(13)
77sno1
As2N
-.ClO
(14OJ
(200)
+0.12
(28)
77sno1
.177
194 206
-.192 .163 .I67 -.172
835 846 992
.lSO
83
-.G28
(10) (37) 1591 (2.3) (41) I221
(9)
129
GG GG
63 83
.I58 .270
(291 (15)
GO IS.3
250
5-
0
3-
250
JG
MT
.491
(12)
GO 153
362
3-
0
3-
362
JG
HT
GO 153
449
5-
I-
355
JG
HT
GO 153
449
5-
GD 153
549
5-
GD 153
549
5-
GO 153
858
3-
GO 153
858
3-
0
EJ
(
3-
42
(
-0.05
0
O
79VAl4
-0.19
-.496 .049 -.625
-.200 ,003
(69)
.867
(103)
-0.053 -0.04 -0.03 -0.04
-0.01 -0.014 -.JOb
-.024 -.029
(17)
I451 (46)
(*9
3J .-3
)
77SMOl
,-5
I
77sno1
5)
(15) ( 51 s-8 ( co
(+6
r-5
* * * * * * * * *
(32) ( 21
-0.026
(20)
-0.011
(1.3)
76ALO9 AVERAGE
+0.012 to.19 +0.12
(36) ( 3) 1 5)
7bALO9 77BA63 AVERAGE
-0.14
(
9)
7.5NAl4
(32)
*a.20
(
4)
78NA14
(43)
-0.03
(
6)
78WAl4
3-
449
JG
HT
147)
l 0*22
4 5)
78YAl4
I-
456
JG
MT
.003
(24J
-0.09
(
31
713WAi4
3-
549
JG
HT
.014
(391
iO.18
(
3)
T.%lAI4
(
9J
5-
816
JG
HT
-.141
(28)
-1.8
650
JG
HT
-.522
(26)
+0.25
71
Atomic
Data and Nuclear
t*3
e-2
Data Tables.
l
76AL09 7bALO9 76ALO9 76ALO9 J 76AL09 76AL09 AVERAGE J
-0.09
3-
l
77SHOl
4J
~+llr-l6J
-0.25
* s
775101
(4OJ
3-
O
1
(20)
129
93
79VAl4 AVERAGE
.OOO
153
93
-.OlO
(301
77sno1
(40)
-.510
(20)
-.OlO
4)
t*c
0.00
151
* i c
r-
so
CD
77SHOl 79VAL4 AVERAGE
)
78YAl4 7WAl4
Vol. 25. No. 1. January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 =SA s 149); 18, 137 (A > 150) See page 34 for Explanation
INITIAL NUCLIDE
18
153
LEVEL EtKEVI
61
FINAL LEYEL E(KEV)
2J
7*
13
153
254
7*
13
153
263
9-
TB
153
325
94
GANMARAY E(KEV)
25
0
5+
0
5+
il-
163
Al
7t
FECHNIPIJE
A2
GG E
03 L/L
-.016
254
GG ii
471 L/L.
-.102
100
GG E
275 L/L
GG E
L/L
91
244
,208
Ill
A4
(36)
(60)
(201
-.a21
(20)
-.150
(26)
TB
153
445
9t
254
7+
190
GG E
254 L/L
la
153
537
7-
263
9-
275
GG
100
16
153
750
7+
325
94
415
GG
244
-.384
(46)
GD
151
267
5+
116
7+
149
JG
n1
-.027
(7)
GO
GD
155
155
267
269
54
34
5+
105
3*
100
I63
JG
JG
nr
-.086
HT
-.069
(201
.032
-.036
-.062
,026
-.036 .009
(72)
REFERENCE
+0.13 a.13 to.13
(49
1-s
(99)
t1.2 0.34 to.34
(+78,-9 t 4) ( 4)
(3.3)
to.095 0.095
)
77ALZb 77AL26 AVERAGE
1
77AL20 77AL28 AVERAGE
1) I)
( (
(10)
77AL28 77AL28
(10)
(401
+0.32 0.56 to.56
(+53.-20) ( 6) ( 6)
77AL28 77AL28 AVERAGE
(60)
-0.25 0.26 -0.26
(t13.-10) ( 6) ( 6)
77AL26 77AL28 AVERAGE
(381
+2.5
(
77AL2.3
(85)
+a.22
(5)
(6)
3)
(4.3
.-7
1
77ALtl
-0.14 -0.130
( ll (
7)
AVERAGE
*
-0.23 -0.220
(
2)
7901106 AVERAGE
*
*
79DUOb
(11)
to.06
(
+0.095
(35)
79ouoe AVERAGE
5)
3-
267
JG
Ill
-.lOO
(30)
-0.09
(12)
790UOS
227
5-
664
GN
227
.343
(16)
l
(
5)
77AL30
3-
227
5-
724
GN
227
-.155
(62)
-7
4 3)
77AL30
5-
227
5-
835
GU
227
-.297
(66)
-0.56
(+47.-331
77AL30
5-
841
GM
227
-.043
(60)
-0.25
(
77AL30
(13)
$3
I55
287
3-
la
155
891
3-
15
155
951
18
155
1062
67
.206
-.047
DELIA
0
O.36
TB
155
1068
3-
227
ra
155
1155
5-
250
7-
906
GM
227
-.0513
(6.5)
-0.27
TB
155
1155
5-
227
5-
929
CN
227
-.275
134)
-0.56
(+37.-281
77AL30
E;I
165
243
3-
5-
243
GN
1164
-.050
(l(L)
(39)
to.02
(
4)
75fUI3
ER
165
590
l-
3-
347
GN
243
(38)
-0.02
(11)
75fUl3
T’4
169
118
5*
3+
110
GM
7*
I77
GM GM
TN
169
316
7,
0 243
a 139
.024
.057
(11)
-.034
198
.345
(9)
-.049
Ii0
-.313 .254
1.91
(36) 113)
1’4
169
316
T+
118
5t
198
6H
118
-.280
(60)
TN
169
332
9+
139
7+
193
JG
s*s
-.534
(17)
.052 ,022 .069 -.016
6)
(13)
-0.133
152) 123)
-0.06 -0.17
(*lo,-8
(11)
(80)
-0.29
(+lI.-9
(20)
-0.105 -0.105
(11)
78VEO7
t
78VEO7 76VCO7
t t
I
78VEO7
t
(11)
77TAiO AVERAGE
l l l
1t7
1-5
637
134
361
lit
270
56
SSS
-.532
(24)
-.a40
(31)
-0.123 -0.123
(14) (14)
77fAlO AVERASE
11
169
1028
ir+
691
15+
337
J6
s*s
-.581
(66)
-.I00
ti101
-0.127 -0.127
(35) (35)
77TAlO AVERAGE
Data end Nuclear
Data Tables.
l
) )
I69
Atomic
l
77AL30
TM
72
l
Vol. 25. NO. 1,Januafy
*
l
’
lse0
K. S. KRANE
-.------
-
.
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
.-
.
.
-.
..
.
..-.
.
-
.
. -.,
. .-
. .
L‘ABLE 111. EXpertmental Uata on Angular Ulstrlbutlons ancl Mixing Katlos ln Uaa-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 s A c 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLI
DE
INITIAL LEVEL E(KEV)
2.l
YB lb9
71
9+
YB
87
3-
lb9
FINAL LEVEL E(KEV) 0
ZJ
GAHMARAY E.(KEVl
T&XNIQUE
A2
A4
DELTA
7+
71
E
L/L
0.28
24
l-
63
E
L/L
0.60
REFERENCE
(+8 (
Y9
lb9
99
5-
67
3-
12
E
L/L
0.026(+5
V3
lb9
162
11+
7l
9+
91
E
L/L
0.265(+23.-26)
w-11)
71APl7
3)
7tA717
e-4
I
-0.274(+22.-25) ‘If3
lb9
191
5-
99
S-
87
3-
VB
lb9
191
5-
YB
lb9
279
7-
191
3-
TM
171
913
5+
635
7*
‘IB
171
67
0
3-
v3
171
lb6
9*
VB
171
208
7-
YB
171
259
Ii*
95
l-
E
L/L
0.15
E
L/L
0.07
E
L/L
0.234
NM GG
210 210
92 104 07
277
67
JG
HT
.I19 .la2
-.2oa
16) (13)
.029
(34)
(101)
(
r-7
7bPAl6
*
78BA03 AVERAGE
* *
l 2.0 +a.69
(+50.-12) ( 2)
7bK304 AVERAGE
* *
7+
72
JG
MT
,170
(501
-0.10 -0.28
( (
61 1)
IbK?OS AVERAGE
* *
122
5-
86
JG
MT
.2x54
(56)
-0.07 -0.24
( (
51 4)
7bKRO4 AVERAGE
* *
lb9
9,
91
GM
. 191
(49)
689
.090
(90)
-0.22
t*13*-111
-0.28
t
5)
77SIOS AVERLGE
* *
4) 5)
7CKRO4 AVERAGE
* *
76KRU4 AVERAGE
* *
76~~04 77SEO5 AVERAGE
* * *
208
7-
109
JG
HT
,255
(42)
-0.08 -0.22
( (
18
171
835
7-
317
9-
518
JG
ii1
.540
190)
t1.2 to.52
(+l7,-7 (151
18
171
835
7-
208
I-
627
JG GM
MT Bb
-.230 ,259
(50) (501
+1.3 +2 +I. 00
( 3) (422.-l (171
JG
HT
.407
(191
122
5-
713
YB 171
935
9c
168
9+
76.9
JG
MT
VB
935
9*
95
7+
040
JG
HT
171
77ARl7
( 2) ( 21 (Ill
9-
7-
I
-0.36 -0.31 -0.338
311
835
l
77ARl7
171
171
*
113)
va
v3
77ARi7 AVERAGE
ITAR
2)
t+3
77ARl7
-.I08 .566
-.
103
(100)
)
b
-2.1 -1.54
I 4) (1.3)
76KRU4 AVERAGE
*
(38)
-0.34 -0.34
( (
76KR04 AVERAGE
* *
(9)
-0.5; -0.51
7bKRO4
*
81 81
(*II ~-7 1+10.-7
) I
l
AVERAGE
l
VB
173
636
I-
179
9-
457
RI
l 0.65 l O.65
(14) (ICI
79DZ02 AVERAGc
l l
‘I3
173
636
I-
79
7-
557
RA
t1.95 t1.95
(la)
190202 AVERAGE
l
(101
-0.41
-0.41
( (
8) 81
790202 AVERAGE
* *
l 0.21 l 0.25
( (
4) 2)
77WEll AVERAGE
*
-4.65 -4.7
-4.66
(20) ( 31 113)
77Kil2 79ERi2 AVERAGE
’
-0.10
I 41
76AJO2
t
YE
L!J
HF
1A
173
117
l77
it?
636
289
113
7l
7-
0
150
li-
9-
54
5-
9-
a
0
I-
74
636
139
113
71
RI
NM
JG JG
GM
150
-.042
(78
HT nr
115
.a00
13
(20)
Atomic
Data and Nuclear
Data Tables.
Vol. 25, No. 1. January
l
l
l l
1980
K. S. KRANE
E2,
A41 Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 c A s 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIOt:
INIlIIL LEVEL E(KEVJ
ZJ
2J
G4UN4R4V E(KEVJ
123
lit
146
JG
HT
-0.330 -0.385
(75) (42)
75HUI5 AVER4GE
FINIL LEVEL E(KEVJ
TECHNIQUE
42
A4
DELTA
REFERENCE
HF
179
269
13t
HF
179
439
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269
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170
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HT
-0.327
(45)
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ttr
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631
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193
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MT
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HF
179
640
19,
631
i7t
217
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NT
-0.365
(33)
75NUIS
HF
179
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21+
@+a
19t
236
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ttl
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(30)
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r4
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KRIKR
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L/L
368
JG
4t6N
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r-3 .-3
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t
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,030
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40.10
I
776312
Atomic
Data and Nuclear
Data Tables.
1)
Vol. 25, No. 1, January
1980
K. S. KRANE
E2,
Ml Mixing Ratios, Supplement and Corrections, ?ecemk-
‘“-?
TABLE III. Experimental Data on Angular Distributions and Mixing Ratio:. in c)ctd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 5 A d 149). 18, : 37 ( L\ > 150) See page 34 for Explanation
NUCLIOE
PT
191
INITIAL LEVEL EtKEVJ
30
FINAL LEVEL EIKEVl
2J
l-
0
&AMARAT ECKEVJ
25
TiXHNfQUE
3-
30
E
L/L
A2
OcLfA
A4
REFERENCE
O.OZB
(
675006
i3J
**
PT 191
lb6
3-
30
l-
136
E
L/L
0.42
(
71
67JOOb
PT
191
lb6
3-
0
3-
lb6
E
L/L
0.55
(
51
b7J306
l
Pr
191
276
3-
0
3-
278
E
L/L
0.00
I
7)
67JOOb
**
pr
191
27.9
J-
30
l-
247
h
L/L
u.50
(161
675306
**
PT
191
278
3-
10
s-
268
E
L/L
0.35
(*12*-15J
67JOO6
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Pl
191
468
7-
400
5-
08
E
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0.25
1*8
675306
l *
AU
191
a97
ll-
540
9-
357
JU
A. 4N
-.480
1130)
AU
191
1351
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911
13-
440
JG
A&N
-.55u
(330)
-.040
.ZOO
(18OJ
-1.16
(4bOJ
-1.0
e-111 (811
776312
(*5u,-lO~
77G312
(23)
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1130)
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t1ouJ
l u.5u
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(201
-.020
(30)
-0.14
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r-6
J
78LIlO
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(50)
-.020
180)
-0.28
(+7
,-6
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78LIiO
(60)
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607
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317
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150)
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274
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2019
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2426
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TL
197
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7ILIiO
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208
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L/C
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( (
lb
770R06
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*
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(+7
78LIlO
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78LIlO )
7aLIlO
f
3)
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(
71
7OLI
-0.14
(*14,-121
10
78LIlO
** New value which replaces previous incorrect value * New value which changes previous average
75
Atomic
Data and Nuclear
Data Tables.
Vol. 25. No
1. January
1980
K. S. KRANE
E2, Ml Mixing Ratios,Supplement and Corrections, December 1979
III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 s A c 149); 18, 137 (A > 150)
TABLE
See page 34 for Explanation
NUCLIOE
INITIAL LEVEL EIKEVI
2J
Ii;
201
Hi
201
TL
201
rL
201
1572
TL
201
1962
I.
203
279
3+
TL 203
685
5+
1216
94
205
204
3+
TL
255
625
5*
P3
237
897
3-
T.L 203
TL
FINAL LEVEL c.(KEVI
25
GANNARAY C(KEV)
1ECHNIQUE
A2
A4
DELTA
REFERENCE
32
3-
1
3-
31
GH
135
.175
(40)
-0.056
(57)
78NOOb
**
32
3-
a
3-
32
GH
135
.184
(351
to.007
143)
76NOOb
l
-.451
113)
1239
ii-
920
9-
319
-0.34
i+ii.-8
(461
-5.21
Itis,-9
(371
-5.20
it5
NsN
ti.73
ft4L,-30)
N.N
-5.54
JG
0.3N
I
,.045
13-
1239
ll-
333
JG
0.3N
-.383
(29)
.052
i5-
1572
13-
391
JG
0,3N
-.407
(26)
.a15
i+
279
JG
279
3+
452
JG
1574
7t
141
JG
i*
204
J6
0 254
a
3+
416
JG
i-
697
GN
0.3N
-.104
(10
-.a22
1281
r-7
I
77SLOi
J
77SLOi
J
77SL
414)
+0.049(+61,-47)
t
77OAOb
i
77SLOl
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J
NsN
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77OAOb
f
N+N
to.59
(12)
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(25) (101
7bAVOl AVLRA6E
* I
*a.562
(15)
76AVOl
t
14&2
IbJ
(15)
.01a
(5)
2339
01
209
2600
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1658
13,
992
JG
LI,AZN
.270
(451
-0.04
I
4J
760El7
a1
209
2741
t5+
1608
13,
1133
JO
LI,APN
-.a15
(55)
*0.14
I
4)
78BEl7
RN
219
5t
269
E AG E At At
L/L 5653 L/L 5653 5603
.195
(45)
.a55
(48)
l 131 .185
(171 (4)
,507 -.a09
(22) IbJ
E At
L/L 5709
.585
(120)
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At
5709
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P4 223 R4 223
334
334
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3,
3+
5-
a
0
30
I+
3+
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334
354
575
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257
575
01
770406
P3
269
7-
0
(l.sl
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0.15
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l 4) t 4) I 71 ( 2) ( 11 ( 1)
(601
0,65 to.65
(65)
*a.14
75OA06 7ODAO6
7OKROl 75KROl
4' l* l *
*a
74RXllS AVERAGE
l * *a
(101 (10)
71BR28 72UE16
** l*
ILOI
72HEl6
l*
t New value which does not change previous average * New value which changes previous average ** New value which replaces previous incorrect value
76
Atomic
Data rind Nuclear
Data Tables.
Vol. 25. No. 1. Januaty
1960
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December “‘Y
REFERENCES
SSWelO
FOR TABLES
J.U.Weale
- Proc.Phys.Soc. (London) 68A, 35 (1955) Angular Correlations and Internal Conversion Beasurements in ThCC" and ThC'D I.I.Pilimonov, G.A.Petrov - IxVest.Akad.Nauk SSSR, Ser.Piz. 20, 1935 (1956); Columbia Tech.Transl. 20, 1311 (1957) Use of a Pulse Ionization Chamber for Investigating Alpha-Gamna Angular Correlation J.W.Bortoa - Phys.Rev. 101, 717 (1956): See Also 538006 Alpha-Gamma Angular correlation in Bie~*(ThC) E.Bodenstedt, Ii.J.Korner, P.Frisius, D.Hovestadt, E.Gerdau - Z.Physik 160, 33 (1960) Der g-Paktor des 93 keV-Niveaus und andere Winkelkorrelationsmessungen an Pml*v C.W.Reich, E.C.Yates, E.B.Turk - Phys.Rev. 123, 903 R..L. Aeath , J,E.Cline, Alpha-Gamma
56Pir(l
568011 60Bo17
6 lHe09
61Sal3 615111 63Bhll 63Co28 631~02
63St09 637402
65Ev05
65Ea34 66Bell 66EgOl 66Pt02
6 66025 66ltlZZ
67Ba17 67BeY7 676106 67Gu17 675006
67Wa02 60Bi03
(1961) 3.14~hr
Isoaeric Level in Y9Q R.Jambunathan, %R.Gunye - Phys.Rev. 12U, 178 (1961) B.Saraf, Directional Correlaticn of Gamma Transitions it? Promethium-147 L.Kald, K.E.Nysten, E-Spring - Soc.Sci.Pennica, 1. Siuons, U.Brenner, Comsentationes Phys,Bath 26, No.6 (196 1) Angular Correlations of Gamma-Gamma Cascades in Pbzoa R.Bhattacharyya, S.Shastry - Indian J.Phys. 37, 357 (1963) E2-Ml Nixing in the 100 keV Transition in. Prl** W.C.Cobb - Phys.Rev. 132, 1693 (1963) Spins of Excited States of Tl*ea from the Alpha-Gaaaa Angular Correlations T.Iwashita, T.Inamura, y.Ikemoto, S.Kageyaaa - J.Phys.Soc.Japan 18, 1358 (1963) Decay Of Gel** K.M.Stautberg, E.Brooks Shera, A.J.CaSper - Phys.Bev. 130. 1901 (1963) Angular Correlations of Cascade Gamma Rays in the Decay of Lulve W.Zuk, S.Gustafsson - Arkiv Pysik 24, 69(1963) Gamma-Gamma AngUlar Correlation and Intensity Ueasurenents on Lou Energy Gamma Bays in the Decay of Ce-144 J.S.Evans. R.A.Eaumann - Phys.Rev. 138, BlO17 (1965); Erratum Phys.Rev. 139, LB4 Decay
(1965) of Pdleu
to OddQcld Rhlue E.Batthias, D.A.Shirley, J-S-Evans, R.A,Nauaana - Phys,Rev. lU0, B264(1965) Half-Life and 9 Pactor of the 75-kev Level of Rh*ee ff.Beer, R-Schneider - Z.Naturforsch. 21A, 174 (1966) (S&SO) keV-y-y-Winkelkorrelation von Prl** T.v.Egidy, E.Bieber, T.W.Elze - Z.Physik 195, 489(1966) Das Konversionselektronenspekttur von AnI*. nach Beutroneneinfang K.Pransson. C.E.Bemis,Jr. - Nucl.Phys. 78, 207(1966) The Decay of %vaTe and Levels in odd 13aI K.P.Gopinathan - AEET-267, p-44(1966) Decay of l*vNd to 1*7En S.S.Klein - Thesis, tJniv.Amsterdam (1966): NP-16835 (1966) An Alpha-Gamma Correlation Spectrometer Using Surface Barrier Alpha Detectors. Application to the Bnasufement of Angular Correlations in the Decay of *lzBi to ae'T1 A.Backlin - Phys.Letters 2UB, 309(1967) E2/El nixing Ratios of Transitions in *?oTm G. Berzins. W.H. Kelly - Nacl. Phys. AlOQ, 263 (1967) Ge(Li)-NaI(T1) Angular Correlation Studies of Gamma Cascades in the Decay of 11 l m-Te
A.Gizon, J.Godart - Nucl.Phys. A96, 401 (1967) Desintegration de lv*m-Lu S.L.Gupta, N.K.Saha - Indian J.Phys. Ul, UB (1967) Gamma-Gamma Correlaticns in Prr** A.Johansson, B.Nyman, G.lYalmsten, S.-E.Karlsson - Nucl.Phys. A98, 278(1967) The Decay of 19lAu and the Level Scheme of IvcPt A.B.Wapstra, P.P.A.Goodsmit, J.F.W.Jansen, J,Konijn, K.E.G.Lobner, G.J.Eijgh, S.A.De Wit - Nucl.Phys. A93, 527(1967) The Isoaer with Spin 12 in 196~~ L.Birstein, T.Chechik, C.Drory, E.Priedman, A.A.Jaffe, A.wolf - Nucl.phys, Al
13.
193
The Angular
(1968)
Distributions
of Gamma Rays Following
77
(a,n)
Atomic
and (p,n)
Data and Nuclear
Reactions
Data Tables,
Vol. 25, No. 1, January
lee0
K. S. KRANE
E2, hf1 Mixing Ratios, Supplement and Corrections, December 1979
REFERENCES
6BDo17
6 8KaOU
68SuOl
T.Doke, B.Miyajiua A HethOd of Reasnring Gridded Ionization B.Kawakasi, K,Hisatake The Excited States in R.A.Suarez, T,v.Egidy,
FOR TABLES
lkwl.Instr.Rethods 61. 181 (1968) Alpha-Garra Angular Correlation
Using Cathode
Pulses
in a
Chamber
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AlO7,
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E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
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(1977)
Aigh-Spin States in 1lvSb A.Molchadzki - Phys.Rev. C15, 2187 (1977) J.Burde, A.Ginzburg, Absolute Transition Probabilities in 1vlSm P.T.Callaghan,N.J.Stone,R.B.Alexander - Ryperfine Interactions 3,267(1977) Nuclear Orientation cf *zBr Implanted into Fe N.Bendjaballah, C.Tosello S.Cavallaro, J.Delaunay, R.Ballini, T.NomUra, Nucl.Phys. 1293, 125 (1977) Aigh Spin Levels in SaGe: Ground-State and Quasi-7 Bands W.E.Collins, J.H.Hamilton. J.Lange - Phys.Rev. ~16. 2019 (1977) Properties of the Second Kr = O+ Band in te6Gd J.M.Davidson. D.B.Sheppard, P.W.Green, J.A.Kuehner - Phys.Rev. C 15, 104 (1977) 92Nb using
J.H.Davidson, 635
l *I (a,nT) 9ab
P.W.Green.
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A.R.Booper,
D.M.Sheppard,
G.C,Nelson
Coupling in *e3,2eaTl W.K.Dagenhart, P.H.Stelson, F.K.?lcGowan, R.L.Robinson, W.K.Tuttle,III - Nucl.Phys. A284, 48U (1977) Coulomb Excitation of ItvSn Do Huu Phuoc, A.Charvet, R.Duffait, R.Chery - Z.Phys. Energy Levels of eO,e2Br from (p,n7) Reactions Intermediate
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770008
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W.T.Hilner, A2B2,
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Vol. 25, No. 1, January
1980
E2,
K. S. KRANE
Ml Mixing Ratios, Supplement and Corrections, December 1979
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77Ko47
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Vol
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1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
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State
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Vol. 25, No. 1. January
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K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
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Lou-Lying States of r**Sb Studied from the Decay of llvm-Te A.?I.Al-laser, A.K.Behbehani, L.L.Green, A.N.James, C.J.Lister, L.Zybert, R.Zybert - J.Phys. N.Rammo. J.F.Sharpey-Schafer,
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Properties of the 635.4 keV Level in ItlTrn V.V.Babenko, I.I.Vishnevskii, V.A.Zheltonoxhskii, Izv.Akad.l?auk SSSR, Ser.Piz. 42, 84 (1978); 100.1,
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68
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78Be17
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78Br25
Electromagnetic Properties of Particle-Vibration B.A.Brown, O.RaUSSer, T.Faestermann, D.lard, A306,
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78Du04
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786108
in -
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242
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(1978)
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Vol. 25. No. 1, January
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E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
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Atomic
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Vol. 25. No. 1. January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections,
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78WelS
79LdO2 79LlOB
Time-Reversal Test and Ruclear-Structure Study Using laeAg-m D.D.larner, W.D.Hamilton, R.A.Pox, K.?inger, J.Konicek, V.N.Pavlov, V.ll.Tsupko-Sitnikov - J.Phys.(London) GU, 1887 (1978) Directional Distribution of f Rays in *evGd from the Decay of *eaTb R.L.West, B.G.?uak, J.U.lYihelich - Phys.Rev. Cl 8, 679 (1978) Levels in ae*Gd Populated by the (a,2nV) Reaction and the Decay of the Isomers of "'Tb R.L.Rcbinson, R.J.Kim, R.O.Sayer, A.J.Caffrey, R.B.Piercey J.C.liells,Jr., Phys,Rev. C18, 2162 (1978) Linear Polarization Measurements of y Rays from **en n.Adachi, T.Ratsuzaki, H.Taketaai - nucl.Phys. A311, 80 (1979) Lov-Lying Levels in 1ruSb Studied vith the '*eSn(p,ny) Reaction A.A.Alexandrov, rl.P.Kudoyarov, I.K.Lemberg, A.A.Pasternak - Rncl.Phys. A321, 189
7 9Be27
798e91 7 9Br07
335
79Deo3 79De12
79De37
(1979)
Lifetimes and Spin-Parity Assignments of Excited States in l eGe Populated in the eeZn(a,ny) Reaction A.R.Behbehani, A.l!.Al-loaser, A.J.Brovn, L-L-Green, A.t?.James. C.J.Lister, E.R.?.Rammo. J.F.Sharpey-Schafer, L.A.Zybert, R.Zybert. P.J.Rolan J.Phys.(London) GS, 1117 (1979) A Comprehensive Study of the y-Rap Spectroscopy of l vCa D.J.Beale, A.R.Poletti, J.R.Southon - Aust.J.Phys. 32, 195 (1979) Gamma-Ray Studies Using a Solid Argon Target: Properties of States in *OK and *ear Y.R.A.iiesselink, A.van Poelgeest, J.J.A.Zalmstra, B.J.Uitxinger, J.Bron, R.Verheul. K.Reyde, U.Uaroquier, H.Vincx, P.van Isacker - tiucl.Phys. A318, (1979)
Collective Bands in Rven Rass Sa Isotopes Cl.G.Desthuilliers, C.Bourgeois, P.Kilcher, J.Letessier, F.Beck, T.Byrski. A.Knipper - tucl.Phys. A313, 221 (1979) Structure of the Collective Bands in the *aSAu Uucleus A.P.de Lina, J.A.Ka8ilton. A.V.Ramayya, B.van Kooijen, R.U.Ronningen, H.Kawakami, R.B.PierCey, E-de Lima, R.L.Robinson, B.J.Kia, U.K.Tuttle, L.K.Peker. P.A.Rickey, R.Popli - Phys.Lett. 838, 43 (1979) Evidence for Ground and Both Keutron and Proton Rotational Aligned Bands in e.Ge A.n.Demidov, L.I.Govor, D.K.Zhuravlev, &U.Komkov, V.A.Kurkin, I. BIShukaLov Yad.Fiz. 30, 289 (1979): Sov.J.Rucl.Phys. 30, 149 (1979) Determination of Rultipole Admixtures in 2+* - 2+, Transitions in the Isotopes 112,116gn
79Du08
79DzO2
79Ek03
79Er12
J.Dupak, R.Finger, J.Konicek, T.Kracikova, J.Euhonen, V.R.Pavlov, I.Prochaxka. W.D.Ramilton - Ctech.J.Phys. B29, 361 (1979) Nuclear Orientation Study of 'verb Decay B.S.Dxhelepov, tl.A.Listengarten, R.A.Lyutorovich - Ixv.Akad.Nauk SSSR, Ser.Fiz. 43, 2 (1979): Bull.Acad.Sci.USSR, Phys.Ser. 43, Wo.1, 1 (1979) On Transitions from the 7/2, 7/2(SlU], 636-keV Level of 1veYb L.P.Ekstrom, G.D.Jones, P.Kearns, T.P. norrison, O.K.8ustaffa, D.N. Simister, R.G.Price, P.J.Tvin, R.sadsvorth, R.J.Ward - J.Phys.(London) G5, 803 (1979) Gaama-Ray Spectroscopy on l eCr R.Rrnst, E.Ragn, E.Zech, G.Eska - Phys.Rev. Bl9, 4460 (1979) Nuclear Quadrupole Alignment of *veLu-a and l7vLu in a Lutetium Single Crystal at Low Temperatures and Systematics of Electric Field Gradients in Pure Aexagonal Transit10 n Retals
87
Atomic
Data and Nuclear
Data Tables.
Vol. 25, No. 1. January
1980
K.S.KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
REFERENCES
79FiO6 796109
79Gr22
79GulO
79Ha47
79IrOl 79KaOl 79Ka05 79Ka22
J.J.Kraushaar, R.A.Ristinen, I.E. Samuelson Ioucl. Phys. A326, 55 (1979) High-Spin States Above 3.5 HeV in vlNb K.D.Glascock, E.W.Schneider, W.B.Walters, S.V.Jackson, R.A.Ueyer - Phys.Rev. C20, 2370 (1979) Level Structure of Odd-lass In Nuclei and the Unified Nodel. II. 117In Levels Populated in the Decay of *l7Cd Isomers I.I.Gromova, f.Dupak, Y.Konichek, T.I.Kratsikova, N.A.Lebedev, B.S.Neganov, V.N.Pavlov, I.Prokhaxka, n.Finger, V.H.Tsupko-Sitnikov. A.P.Shus, A nakhova, W.D.Aamilton, R.A.Fox - Izv.Akacl.Rauk SSSR, Ser.?iz, 43, 53 (1979): Bnll.Acad.Sci.USSR, Phys.Ser. 43, Ro. 1, 42 (1979) Study of the Decay of Oriented IbeTb Nuclei G.Guillaume. P.Fintx, A.Gallaann, F.Jundt, I.Riedinger-ordon&, P.Sioshansi Nucl.Phys. A322, 189 (1979) Btats de Rant Spin dans SvRn D.Bageaann, A.-J-Keller, Ch.Protochristow, F.Stary - Nucl.Phys. A329, 157 (1979) collective Excitations in the **7,**9,***Te Ruclei A.D.Irving, P.D.Forsyth, I.Ball, D.G.E.llartin - J.Phys.(London) G5, 1595 (1979) The Properties of Low-Lying Levels of l*vXe and *3lXe J.Kantele, R.Jolin, B.Luontama, A.Passoja, T.Poikolainen, A.Backlin, I.-G.Jonsson - Z.Phys. A2B9, 157 (1979) Absolute EO and E2 Transition Rates and Collective States in SlbSn A.W.B.Kalshoven, W.B.A.Besselink, T.J.Ketel, J.Ludziejevski, L.K.Peker, J.J.van Ruyven, A.Verheul - Nucl.Phys. A319, 334 (1979) High Spin States in *asAg C.A.Kalfas, A.C.Xenoulis, E.Adamides, S.Papaioannou, L.D.Skouras - Z.Phys.
C.A.Pields,
A292,
79ta15
79NCO4 79IloOl
FOR TABLES
153
(1979)
Properties of Electraagnetic Transitions from fiigh-Spin States in veno J-Lange, J.Neuber, P.Tendler, C.D.Uhlhorn, A.T.Kandil, H.V.Buttlar Nacl.Phys. A330, 29 (1979) Excited States of v"Bu aId *~Ru in the (p,p'y) Reaction F.K.RcGouan, C.E.Benis,Jr., J.L.C.Ford.Jr., N.T.Rilner, D.Shapira, P.Ii.Stelsou - Phys.Rev. C20, 2093 (1979) Coulomb Excitation of 1vvW C.Rorand, J.F.Bruandet, B.Chambron, A.Dauchy, D.Drain, A.Giorni, Tsan Ung Chaa - Nucl.Phys. A313, 45 (1979) Niveaux de spin Eleve dn r*Ge Atteints par la Reaction veZn(a,2n7) A E = 30 nev
79nt.00
O.I.Rustaffa, D.R.Simister, (1979)
79Hu02
Gamma-Ray T.Numao,
F.KearnS, R.J.Wars
in b3Zn and *vCu T.Kobayashi, T.-a.Shibata,
Spin States li.ooms, J.Claes.
Above the B+ Isomer in a%r F.Raaavar. B.van de Voorde,
(1979)
Spectroscopy
G.D.Jones, R.wadsuorth.
A.Nakayana,
361 Eigh 790001
L.P.Ekstrom, P.J.Tvin,
-
T.P.Morrison, H-G-Price, J.Phys.(London) G5, 1,Kuno
U.Rots
-
-
1283
J.Phys.Soc.Jpn.
1Pucl.Phys.
A321,
46. 180
(1979)
79Pa13 79PiO5
79POl3
798117
Nuclear Uoments in the Doubly oaa 1321 fsotope T.Paradellis, G.J.Costa, R.Seltx, C.Lebrun, D.Ardouin, F.Guilbault, K.Vergnes, A330. 216 (1979) G.Berrier - Rucl.Phvs. High-Spin States in b;Ge from-the v*Rn(lbO,pn) Reaction V.Haruhn-Rexwani, R.B.Piercey, A.V.Raaayya. R.U.Ronningen, J.iI.fiasilton, R.L.Robinson, H.J.Kir - Phys.Rev. C19, 1344 (1979) the be11(1*0,2p), In-Beam Gamma-Ray Spectroscopy of '*Se Following b*Ni(l*C,Zn) and *sCu(alB,2n) Reactions R.Popli, J.A.Grau, S.I.Popik, L.E.Samuelson, P.A.Rickey, P.C.Simw Phys.Rev. c20, 1350 (1979) States in *01,*07Ag Populated by Heavy-Ion Reactions and Interpreted by a Quasiparticle-Plus-Rotor node1 J.Rikovska, A.nachova, W.D.Bamilton, J.Dupak, C.C.Ro. U.Finger, R.A.Lebedev. 829, 620 (1979) B.S.Reganov, V.lo.Pavlov, A.F.Shchus - Czech.J.Phys. Nuclear Orientation of *vbTb in Gaclolinium Ratrix
88
Atomic
Data and
Nuclear
Data Tables,
Vol. 25, No. 1. Jenuafy
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections,
REFERENCES
79SaOl
L.E.Samnelson,
J.A.Grau,
S,I.Popik,
December 1979
FOR TABLES
F.A.%ickep,
P.C.Sinns
-
Phys.Rev.
C19,
73
(1979)
79Sa23 79ScO6
States in lo*Cd Populated by Heavy-Ion (xa) Reactions Interpreted Tuo-Quasiparticle-plus-%otot Rode1 %.I.Saxeaa, V.A.P.Esteres, P.C.Zawislak - J.Phys.(Loadon) G5, Directional Correlatioas of Gamma Transitions in lus%h E.W.Schneider, %.D.Glascock, W.B.Walters, %.A.%eper - Phys.%ev. ( 1979)
79sc13
Collective E.Schoeters.
Excitations J.Geenen,
by A 1169
(1979)
C19,
1025
in *2@Xe observed Following the Decay of *P.Cs C.Nuytten, L.Vanneste, fl.Cogneau - Nacl.Phys.
And 1201 A323, 1
(1979) 79Se05 79Sh08
luclear Polarization and Uuclear nagnetic Resonance T.Seo, T.Hayashi, Y.%iyatake, LAoki Nucl.Phys. Energy Levels and ~-Ray Transitions in ~*~PIR A.K.Sharma, %.Kaur, %%.Verma, K.K.Suri, P.%.Trehan 1057
793104 79Sill
-
341
(1979)
J.Phys.Soc.Jpn.
46,
(1979)
Level Structure of lz*Te %.E.Siefken, P.W.Greea, I.%.Hooper, 365
of 1231 and 1251 A321,
G.C.Neilson
T.U.Neuton,
-
Phys.%ev.
C19,
(1979)
Levels in zzln Following Inelastic Neutron Scattering B.Singh, %.Iafigliola. K.Sofia, J.E.Crawford, J.K.P.Lee
-
Phys.%ev.
C19,
2409
(1979)
79Th02 79ToOS 79Va13
79ValU
79Ve03
0+ Excited States in ~22,12~,lz~,1zeXe W.Thomas. K.Kroth, E.BOdenstedt, J.Lange - Pucl.Phys. A318. 97 (1979) Nuclear nagnetic Roment of the 161 keV State and Other Spectroscopic Investigations of IzzCs n.Toalemonde, F.A.Beck, C.Gehringer, B.%aas, J.C.nerdinqer, N-Schulz, J.P.Viviea - J.Phys. (London) GS, 819 (1979) Experimeatal Evidence for Lou-lying Intruder States in s*Mn A.van Poelqeest, W.A.A.Hesselink, J.Bron, J.J.A.Zalmstra, ll.J.Uitzinqer, B.Verheal, S.J.Peenstra, J.van Klinken - nucl.Phps. A327, 12 (1979) High-spin States in luvIn Y.Vavryshchuk, V.Zhuk, P.Ion-Uikhai, E.Krupa, 6. I. Lizurej, B.%.Ilalikov, T.N.l¶urinov, W.Tanska-Krapa, I.Kholbaev - Acta Phys.Pol. BlO. 339 (1979) Gamma-Gamra Angular Correlations in lvlGd R.R.Verma, A.K.Sharma, %.Kaur, K.K.Suri, P.N.Trehan - J.Phys.Soc.Jpn. 47, 16 (1979)
79voo9
Study of the Radioactive Decay of Agllem N.A.Voinova, A.A.%odionov, Y.V.Serqeenkov, Izv.Akad.nauk SSSR, Ser.Fiz. 43, 86 (1979): No-l,
70
P.A.Sushkov, %ull.Acad.Sci.uSSR,
n.A.Ellzbarashvili Phys.Ser.
(1979)
792001
The Decay of 147Nd %.wadsuorth, L.P.Ekstrom, G.D.Joaes, F.Kearas, T.P.llorrison, O.ll.%ustaffa, &G-Price, P.J.Twia, N.J.Ward - J.Phys. (London) G5, 1761 (1979) A Study of the Neutron-Deficient Isotope 66Ge A.C.Xenoulis, C.A.Kalfas - Phys.Rer. C20, 145 (1979) Structure and Directional-correlation Fleasurements in 97Tc from vv%o(p,n)v7Tc*(y) Spectro8etry S.Yamada, S.P.Sud, Y.Hiyatake, T.Hayashi - Nuc1.Phy.s. A332. 317 (1979) The Structure of the Low-lying Energy Levels in *e7%e V.Zobel, L.Cleemana, J.Eberth, W.Neumaan, N.Wiehl - Nucl.Phys. A316, 165
79ZoO2
Bigh Spin States in V.Zobel, L.Cleerann,
b7Ga J.Eberth,
High-spin
Negative
79Wa23 79XeOl
79Ya14
43.
(1979)
States
of
W.Neurann, Parity
N.Wiehl
-
Phys.%ev.
Cl9,
811
(1979)
in bvGe
89
Atomic
Data and Nuclear
Data Tables.
Vol. 25. No. 1, Januaty
1980
DATA AND NUCLEAR
DATA TABLES
25, 29-89 (1980)
E2, Ml MULTIPOLE Supplement
MIXING
and Corrections
KENNETH Department
RATIOS
through December
1979*
S. KRANE
of Physics, Oregon State University Corvallis, Oregon 9733 1
Presented here is an updated compilation of E2, M 1 multipole mixing ratios based on analysis of angular distribution and correlation data from the literature. The present compilation includes data which have appeared in the literature subsequent to the publication of previous compilations of this series, and also includes data for odd-Z, odd-N nuclei which have not been previously surveyed. Several cases are noted in which previously accepted spin assignments or multipole mixing ratios have been shown by more recent data to be incorrect. The present compilation includes data from the literature up to December 1979. Previous Compilations A s 57 58 s A(even) < 150 59 c A(odd) s 149 A(odd) 2 150 A(even) 3 152
in This Series ADNDT
22, 20, 19, 18, 16,
269 211 363 137 383
(1978) (1977) (1977) (1976) (1975)
* This work was supported in part by a grant from the Oregon State University
0092~640X/80/010029-61$02.00/O Copyright 0 1980 by Academic Press, Inc. All rights of reproduction in any form reserved.
29
Atomic
Computer
Data and Nuclear
Data Tables.
Center
Vol. 25. No. 1. January
1960
K. S. KRANE
EZ,
Ml Mixing Ratios, Supplement and Corrections, December 1979
CONTENTS
I. INTRODUCTION II. DEFINITIONS III.
.. . .. . .. . .. . .. . .. . .. . .. . .. . .. . . .. .. . .. . AND PHASE
COMPILATION
IV. CHANGES EXPLANATION TABLE
TABLE
TABLE
I.
II.
III.
REFERENCES
POLICIES FROM
PREVIOUS
CONVENTION
30
. .. . . .. .. . .. .
31
. . .. . .. . .. . .. . . .. .. . . ., .. . . ,. .
31
. .. . .. , ..
31
. . .. . .. . . .. . .. . .. . .. . .. .. . . .. ..
34
Experimental Data on Angular Distributions and Mixing Ratios in Odd-Odd Nuclei. Supplement to ADNDT 22, 269 for A < 57. New Table for A > 57 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
36
Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei. Supplement to ADNDT 22, 269 (A -C 57); 20, 211 (58 s A c 150); 16, 387 (A 3 152) . . . . . . . . . . . . . . . . . . . .
42
Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei. Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 c A =s 149); 18, 137 (A > 150) . . . . . . . . . . . . . . . . . . . .
53
OFTABLES
FOR TABLES
COMPILATIONS
. . .. . .. . .. . .. . .. . .. . .. . .. . .. .. .
77
I. INTRODUCTION
In order to provide a complete and consistent set of values of E2, Ml multipole mixing ratios of nuclear gamma rays, compilation and evaluation of angular distribution and correlation data from the literature were undertaken. In the previous papers in this series,1-5 various mass ranges of nuclei were considered and the multipole mixing ratios analyzed in a phase-consistent manner. In reviewing the previous work, several facts become apparent: (1) None of the previous compilations covered odd-Z, odd-N nuclei except the A < 57 compilation.5 (2) In the 5 years since the first member of this series was published, new
and interesting data have appeared in the literature. (3) Often these new data have indicated that previously accepted spin-parity assignments or multipole mixing ratios were incorrect. In order to remedy deficiencies caused by these facts, a new compilation was undertaken which includes results for odd-odd nuclei and which brings all mass ranges up to the common cutoff date of December 1979. In preparing this new compilation, a particular effort was made to compare newer work with previous work. In this way it has often been possible to resolve ambiguities in the older work, such as spin-
30
Atomic
Date and Nuclear
Data Tables,
Vol. 25. No. 1, January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
analyzed. The results of the reanalysis in the present compilation.
parity assignments or multipole mixing ratios which previously could not be uniquely assigned or deduced. In such cases the data from the older work were reII. DEFINITIONS
AND PHASE CONVENTION
Steffen and Alder,6 in which the multipole mixing ratio S is defined as the ratio of emission matrix elements:
The E2, Ml multipole mixing ratio is defined as the ratio of the electric quadrupole (E2) and magnetic dipole (Ml) matrix elements for a transition from an initial state J, to a final state Jr. For consistency in comparing results of different experiments, and in comparing experiment with theory, the phases must be carefully defined. We follow the phase convention of
6 = (JdIE2IIJi) Other phase conventions and their relations present choice are discussed in Ref. 1.
The angular distribution of gamma radiation from an oriented nucleus, or the angular correlation of successive gamma rays from an unoriented nucleus, is usually presented as a series of Legendre polynomials e) + a4P4(cos e).
(1)
Wl~Wi~ ’
III. COMPILATION
w(e) = a0 + a,P,(cos
are presented
to the
POLICIES
in reasonable mutual agreement. When large disagreements exist, an average value intermediate between the individual values has been selected, with an uncertainty (often larger than the individual uncertainties) large enough to overlap the individual values of 6. Preference in such analyses has been given to more recent work using Ge(Li) detectors. Entries in the Tables with no special indications are for transitions which are not listed in any of the previous compilations in this series. Transitions which have been listed in a previous compilation, but for which the newer value of the mixing ratio does not change the previous average, are indicated with a single dagger (t); for transitions in which the newer value(s) of the mixing ratio changes the average value given in previous work, a single asterisk (*) indicates both the individual entry and the new average. Finally, transi-
(2)
The coefficients ak (normalized so that a0 = 1) contain the information on nuclear spin assignments, degree of orientation, and gamma-ray multipole mixing ratios. These coefficients and their experimental uncertainties are presented in Tables I, II, and III. The Tables also give the deduced values of the mixing ratios, based on the presently accepted spin and parity assignments. These values, with their uncertainties, are given either as deduced by the authors in their papers or as deduced by the compiler when the original paper presented a value shown by subsequent work to be incorrect (for example, based on incorrect spin-parity assignments). The Tables also list a best or “average” value of S. This value is most often a weighted average of the results of all previous work, when the results are
tions which were listed previously, but for which sub-
sequent deduce asterisk Section
studies have shown the assumptions used to 6 to be incorrect, are indicated with a double (**) and are discussed in greater detail in IV.
IV. CHANGES FROM PREVIOUS COMPILATIONS
Subsequent experiments have indicated several cases in which the choice of spin assignment or multipole mixing ratio made in previous work is incorrect. Listed below are the changes which must be made to data listed in previous compilations. These changes are included in Tables II and III of the present work, where they are marked with a double asterisk (**).
not substantial.) The larger value of 6 is in better agreement with the new a4 and also with the systematics of similar gamma transitions in this region, and is therefore shown in the present compilation as the accepted S. 2. 17*Yb. Recent results (76KRO4) suggest the selection of the larger value of 6 for the 1584-keV transition; the previous data of 63STO9 have been reanalyzed accordingly.
A. A (even) 2 152, Ref. 1 B. A (odd) > 150, Ref. 2
1. lszGd. 75HE13
argue for a large value of 6 for the 1090-keV transition, based on their measured a4, which differs from the a4 values tabulated in Ref. 1 (although the difference, about 2 standard deviations, is
I. lslGd. According to 79VA14, the 839-keV level is assigned spin-parity l/2-. The deduced values of the 252- and 444-keV mixing ratios are therefore
31
Atomic
Data and Nuclear
Data Tables.
Vol. 25, No. 1. January
19.90
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
changed, and the 73I-keV transition, previously assigned as Ml + E2, is now pure E2 (l/2- - 5/2-). 2. 19’Pt. The level scheme assumed in the previous work of 675006 has been revised (see Ref. 7 for a summary of the results on which the new level scheme is based). This does not change the values of S listed in Ref. 2, derived from L-subshell measurements, but the spin assignments and the placement of some of the transitions have been changed. In the present listing the currently accepted spin assignments are shown. 3. *OlHg. 78N006 suggest spin assignments different from those of the previous tabulation. In particular, 78N006 and 75HOOS measure anisotropies of the opposite sign for the 135-32 keV cascade. The resolution of this conflict is at present not apparent, and so we regard the correct interpretation of both sets of data as being in doubt until further work clarifies the situation. The results of 78N006 are therefore reported in Table III, but no conclusions are drawn. 4. *15Po. The spin assignments presently acceptedB require that the 402-keV transition, previously assigned as Ml + E2, be reassigned as pure E2 (5/2+ - 9/2+). 5. 219Z?n. The ground-state and 269-keV spinparity assignments are both presently accepted9 as 5/2+, and on that basis the measured alpha-gamma correlations are analyzed as shown in Table III. 6. 223Ra. Newly assigned spins and paritieslO permit the analysis of the previously measured alphagamma correlations.
5. lo5Rh. 79SA23 argue convincingly for a l/2+ assignment for the 786-keV level, which was previously labeled 5/2-. This new assignment is consistent with all previous work as well as with the more recent work. The 393-keV transition, previously designated Ml + E2, would then be ofE1 multipolarity. New deduced values of the 263- and 316-keV mixing ratios based on the new assignments are tabulated in the present work. 6. 14’Pm. The 489-keV level has been shown by 77AL34 to be 7/2+, resulting in new deduced values for the 398- and 197-keV mixing ratios. 7. 14’Eu. The 1122-keV level is presently assigned” 7/2+, and the 893-keV mixing ratio has been recomputed from the data of 71VA37 on that basis. 8. 149Eu. 77FL09 favor a 9/2+ assignment for the 666-keV level. Owing to the uncertainty in the 150-keV mixing ratio, the angular correlation data of 75SE18 are somewhat ambiguous and the more recent value of the 516-keV mixing ratio given by 77FL09 is preferred.
D. 58 s A (even) G 150, Ref. 4 2. lo6Pd. Recent data (77TIOl) favor the choice of the larger value of 8 for the 1046-keV transition; that choice is also consistent with previous work, and the new deduced values are shown in Table II. In addition, the parity of the 2500-keV level was incorrectly assigned; recent results (77OKO3) suggest negative parity, so the 1988-keV multipolarity is now El, rather than Ml + E2 as previously assigned. 2. “OCd. The larger value of 8 for the 1505-keV transition is in better agreement with recent experimental results (77RUZT and 78WA07). 3. lz4Te. In Ref. 4, the second work listed for the 714-keV transition should be referenced 72BA38.
C. 59 s A (odd) d 149, Ref. 3 I. 61Ni. The 5/2- assignment previously made for the 1457-keV level appears to be incorrect; the level is presently assigned 7/2- by 77WA03 (with a refined energy of 1454 keV). The ground-state transition would then be pure E2 (7/2- - 3/2-) rather than Ml + E2 as previously assigned, and the previous value of 6 for the 1390-keV transition should be replaced with the present value. 2. “%z. In the previously tabulated data for the 1229-keV transition, Jf was incorrectly given as l/2-. The correct assignment is 3/2-. This is merely a tabular error and does not change the deduced 6. 3. 95Tc. The 1214-keV level is presently assigned 9/2- (78MA05), resulting in pure E2 multipolarity for the 547-keV transition, which was previously shown as Ml + E2. 4. 97Nb. The 1148-keV level has recently been shown (78KR03) to be 7/2+, rather than 5/2+ as previously accepted. The new deduced mixing ratios for the 1148-, 602-, and 703-keV transitions are given in the present work.
E. A =S57, Ref. 5 1. 39K. The 5718-keV level should probably be assigned 13/2- (78EG02); the choice of the 1774-keV mixing ratio cannot be made unambiguously. 2. 53Mn. The 3440-keV level is presently assigned 15/2- (79GUlO), and the correspondingly deduced 747keV mixing ratio is given in Table III. 3. 42Ca. According to recent results (78EG02, 78PR02), the spin assignments listed in Ref. 5 for levels above 5 MeV are incorrect. The assignments should instead be: 5491 keV, 66; 5744 keV, 7-; 6145 keV, 7-; 6409 keV, 88. The transitions 2302-, 1644-, 2955-, and 321PkeV, previously designated Ml + E2, are now designated El, E2, El, and M2, respectively. The previously tabulated value for the 264-keV mixing ratio should be replaced by the values listed in Table II.
32
Atomic
Data and Nuclear
Data Tables.
Vol. 25. NO. 1, JanuW
1950
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
5. K.S.Krane, ATOMICDATA ANDNUCLEARDATA TABLES 22, 269 (1978) [A 4 57)
Acknowledgments The cooperation of the Oak Ridge Nuclear Data Project in preparing the reference list is acknowledged with appreciation.
6. R. M. Steffen and K. Alder, in The Electromagnetic Interaction in Nuclear Physics, edited by W. D. Hamilton (North-Holland, Amsterdam, 1975) 7. E. Browne, NUCLEAR DATA SHEETS 30,653 (1980)
References 1. K.S.Krane, ATOMICDATAANDNUCLEARDATA TABLES 16, 383 (1975) [A (even) 2 1521
8. C. Maples, (1977)
NUCLEAR
DATA SHEETS 22, 207
2. K.S.Krane, ATOMICDATAANDNUCLEARDATA TABLES 18, 137 (1976) [A (odd) > 1501
9. C. Maples, (1977)
NUCLEAR
DATA
SHEETS 22, 223
3. K.S.Krane, ATOMICDATAANDNUCLEARDATA TABLES 19, 363 (1977) [59 s A (odd) G 1491
10. C. Maples, (1977)
NUCLEAR
DATA
SHEETS 22, 243
4. K.S.Krane, ATOMICDATAANDNUCLEARDATA TABLES 20, 211 (1977) [58 s A (even) G 1501
11. B. Harmatz, W. B. Ewbank, SHEETS 25, 113 (1978)
33
Atomic
Data and Nuclear
Data Tables.
NUCLEAR
Vol. 25, No. 1. January
DATA
1980
K. S. KRANE
E2, Ml
Mixing Ratios, Supplement and Corrections, December 1979
EXPLANATION INITIAL
LEVEL
E(KEV)
J
FINAL
LEVEL
E(KEV)
E(KEV) TECHNIQUE
E
J
N Or
G
P
RA
or
QT
A, A P, N
K, L, M RF
A2,
I, II, AND III
The energy, in keV, and spin-parity assignment of the initial state of the gamma transition. In Table III, where all spins are half-integral, the tabulated spin is 2J. Same as above for final state
J
GAMMA-RAY
HT
OF TABLES
A4
The energy, in keV, of the gamma-ray transition E = &titia, - &,,a, The means used to obtain the E2, Ml mixing ratio The first entry here gives the general experimental method, indicated as follows: Conversion electron detected, either in angular correlation measurement or as internal conversion coefficient measurement Nuclear orientation by a technique not using coincident emitted radiation; that is, the angular distribution of the gamma-rays from nuclei oriented by, for example, a nuclear reaction or cryogenic techniques Detection of gamma-ray using NaI or Ge(Li) detectors, respectively Gamma-ray polarization (linear or circular) measurement Reanalysis of previous data The second entry here gives the coincident transition (numerical value, giving energy in keV) or orientation process, according to the following symbols: Cryogenic orientation by magnetic dipole or electric quadrupole interactions, respectively. Incoming, outgoing particles in nuclear reactions: A = 4He (alpha) N, XN = n , xn (neutron) c = q-J NE = 20Ne NI = 14N D = 2H (deuteron) 0 = 160 E = eHE = 3He P = ‘H (proton) s = 32s KR = 84Kr LI = ‘Li T = 3H (triton) MG = 24Mg Conversion electron subshell Nuclear resonance fluorescence The angular distribution or correlation coefficients az and a,, (except for Pr polarization correlation, in which case a1 is tabulated). Un-
34
Atomic
Data and Nuclear
Data Tables,
Vol. 25, No. 1, January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
certainties in the last digit or digits are given in parentheses. DELTA
REFERENCE
The E2, M 1 mixing ratio, 6. Uncertainties are indicated according to the following notation (00 is the symbol used for m): a= +10* 1 + 10(l) +9cgc+12 +lO (+2, -1) -9<6=Z-12 -10 (+2, -1) 6 = +1oi; +lO (+OO, -5) 6 = + 1.0:;:; +l.O (+lO, -5) 161 > 10 lww The literature reference, given following the tables. If there are two or more independent experimental values of 6, an average value was computed and is designated as such in this column.
Following the reference is an indication of whether there are corresponding data for this transition to be found in a previous compilation of this series. No entry here means that no previous listings for this transition are to be found. The designations have the following meanings: One or more listings may be found in a previous compilation; the present value does not change the previous average value. One or more listings may be found in a previous compilation; the present value is included with the previous values in computing a new average value. The listings for this transition in previous compilations are incorrect, for the reasons discussed in Section IV. The previous data have been reanalyzed and averaged.
t
*
**
Sample Entries under Technique JG
A,A
JGG
P
GN
100
E
L/L
Angular distribution of gamma-ray, observed with Ge(Li) detector, following alpha-particle scattering (Coulomb excitation). Gamma-gamma angular correlation following proton capture; i.e., (p, yy) reaction, using Ge(Li) detectors. Gamma-gamma angular correlation (radioactive decay) observed using a Ge(Li)-NaI detector combination, with the gamma-ray in question measured in coincidence with the lOO-keV gamma-ray. Conversion coefficient measurement of L-subshell ratios.
35
Atomic
Data and Nuclear
Data Tables.
Vol
25. No. 1, January
1980
K.S.KRANE
TABLE
E2,
Ml Mixing Ratios, Supplement and Corrections, December 1979
I. Experimental Data on Angular Distributions and Mixing Ratios in Odd-Odd Supplement to ADNDT 22, 269 for A < 57. New Table for A > 57
Nuclei
See page 34 for Explanation
NUCLIOE
INITIAL LEVEL EIKEVJ
J
FINAL LEVEL EtKEVJ
GANNAJ
RAY EfKEVJ
T CCHNIPUE
K
40
2047
2-
BOO
2-
1247
JG
PsN
K
40
2047
2-
30
3-
2017
JG
PIN
K
40
2291
3-
4-
2291
J6
K
40
2398
4-
3-
2368
JG
K
40
23911
4-
0
4.
2390
VY
54
156
4t
a
3t
NY
54
368
5t
156
MY
54
1073
6+
366
MY
54
1925
7+
1073
MN
54
3244
9t
2657
CD
53
co
5.5
co
58
c7
58
53
0 30
A2
.470 -.I20
A4
(30) LZOJ
to.02
AVERAGE
11
-.a70
(40)
-0.64
(+49,-34J
79BECl
t
-.070
(30)
to.25 to.26
( I
790E41 AVERAGE
* *
J6
P.N
.19a
(501
-.OBrJ
(60)
-0.32
(12)
798E41
t
i5b
JG
A,PN
-.357
(aJ
.a00
(20)
-0.12 -0.24
( t
51 3J
791005 AVERAGE
* *
St
212
JS
A,PN
-0253
(0)
.ooo
(40)
0.00 I +O.Olbf+lT,-14)
2J
797005 AVERAGE
l l
5t
705
JG
ArPN
-.269
(101
.OlO
(30)
-0.02
(
21
791105
b+
a52
JG
A,PN
-.b40
(601
(501
-0.40
(15)
84
367
JG
AtPN
-.230
(40)
(60)
0.0
(
II
791005
-0.33
(
6)
708533
3)
72tlAbi
-.a30 .OOO
4J 3)
79Too5
4+
25
St
25
JR
0.N
Ll2
3+
53
4t
59
JS
PsN
-0120
150)
,060
(70)
-0.02
(
112
3t
2*
112
JG J6
PIN PIN
-.290
(401
.060
(501
to.04 to.02 to.030
I 2) I 2) (14)
JG JG
ArN PIN
-.290
+o.oil) 0.00 +0.003
(23) ( 1) ( 91
AVERAGE
laoI
to.350 to.03 to.038
(25) f 2J (16)
726El4 756?05 AVERA6E
(12OJ
to. 109 to.07 40.076
145) ( 2) (181
758905 AVERAGE
to.02
(
61
75BR05
I
II
75BRO5
366
0
3t
0
2t
366
(40)
321
JG JG
AsN PIN
-.200
(60)
c3
58
457
44
25
5t
432
J6 JG
AsN PtN
-.330
00)
JG
P-N
Cl
t i 6
130)
4t
60
79BE41 79BE41
.210
53
C7
bJ 2J
0.00
PeN
5t
50
f ( (
to.05
f’.N
374
53
(201
(30%
5a
c3
-.040
(20)
REFEREWE
.500
CJ
Cl
.a30
OELTA
1040
3t
457
4,
1+
0
2t
277
4t
0
54
60
289
3t
59
'23
60
436
5t
277
C3
60
436
5,
Cl
60
506
34
CO
60
543
2+
G3
60
614
3t
CO
60
786
It
Cl
60
4+
1435
1005
563
.QOO
-.020
JG
P-N
277
JG
A*P
-.220
(i60)
.oso
2+
230
JG
ArP
-.220
(60)
44
159
JC
ArP
-.160
(501
0
5+
436
JG
ArP
.390
(60)
59
24
446
JG
A.P
-.190
(100)
3+
254
JG
ASP
-.090
(601
2+
556
JG
ArP
-.290
(7OJ
269
34
49a
JG
AtP
-.46lJ
(170)
614
f+
392
JC
ASP
-.230
(100)
209 59
1435
.040
(60)
0.00
72HAbl 758105 AVERAGE 72GEl4
758RO5
72GEl4
( 61
(1701
to.02
-.OBO
(60)
to.04
-.060
(60)
40.06
(601
-0.06
(+31,-29)
7bTA03
(120)
to.06
(
761103
(70)
to.02
(12)
767103
-.iso
(6OI
-0.03
(
6J
7bTAO3
-.020
l19OJ
-0.01)
I
91
7bTAO3
(LiOJ
to.00
I
6)
7bTAO3
. 070 -.050 .a00
,140
(45
.-4
( 4)
7J
IOTA03 J
76lAO3 781103
t New value which does not change previous average * New value which changes previous average
36
Atomic
Data and N&ear
Data Tables,
Vol. 25, No. 1,January
1960
K. S. KRANE
TABLE
I. Experimental Data on Angular Distributions and Mixing Ratios in Odd-Odd Supplement to ADNDT 22, 269 for A < 57. New Table for A > 57 See page 34 for Explanation
INITIIL NUCLIOL
LEVEL E(KEV)
.I
C3
62
243
2+
CJ
62
260
24
CU
62
426
3+
cu
62
645
2*
CU
62
675
3*
“,J
62
675
3,
CU
62
728
2+
C'J
62
720
2*
CJ
62
756
Cd
64
159
3J
64
270
41
14
243
JG
2*
247
JG
2*
305
JS
it
645
J6
243
2+
432
JC
41
24
634
56
41 0
3*
159
1*
344
JG JP
2*
203
7ODA15
(40)
21
TOOAl
130)
-.030
-.570
t*4
,-6
I
70DAI.S
100)
-0.16
(60)
to.05
I
5)
700415
t100)
l 0.49
f
9)
7ODAl5
0.0
t
3)
7OOAi5
l o.oi
I
2)
-0.036
(41)
l 0.020 -0.02 to.12 -0.007
(35 I I 1) t 4) t 8)
700AOl 71ltI15 7iWEO2 732AO7
-0.025 -0.020 -0.02
7OOAOl 71HIi5 73LAO7
l 0.10
(25) 130) I 2) t 2)
+o.oi7
(111
AVERAGE
-.340 -.350
(301 130)
-.290
(10)
-.020 .oso
.ooo
-.340 -.290
(30) (20)
-.030 .030
-.350
(10)
.020
-.020
.OllJ
(40) (30)
(10) (30) (20)
(101
(20)
-.OlO
120)
l 0.10
(10)
(10)
,020
(20)
-0.12 -0.14 -0.13
t
190)
-0.040
(35) (12) (12)
-.420
(101
-0.049 0.000
,020
(10)
*Q.Ob -0.019
I 3) t 0)
-.280
(20)
,020
(20)
*a.01
I
l 0.24
(17)
l 0*05
IlO)
*a.02 l 0.03
I
t 6)
AVERAGE
3*
212
JG
609
24
276
2+
331
56
CU
64
609
2*
159
2+
450
JG JG
l 400
100)
.150
110)
-.
010
t 20)
00)
-0.03
.OlO
(10)
l 0.30 l 0.01
t i I
3) 0) 3)
7OD401 76GRl3 AVERAGE
-0.11
111))
7bGi13
-0.4
2+
362
3t
377
JG
-.llO
120)
.040
(30)
739
2*
270
2+
461
JG JG
-.ObO
(100) (60)
. 140
1701
CJ
64
64
746
096
34
3*
2?8
270
2*
2*
460
617
,280
JO JG
.310 .200
JG JG
J6 JG
1401
(10)
-.400
(60)
-.390
(201
-.400 -.a50
,040 ,020
.060 .030
(60) (20,
170)
(20)
(90)
IlCO)
t 1)
7OOAOl
125) I 9)
76GRl3
-0.30
AVERAGE
-0do5
I ‘tJ
7OOAOi
-0.29
-0.18
(160~
b4
896
3+
159
2*
737
JG
-.I50
37
(30)
.ooo
Atomic
I301
Data and Nuclear
7b6Rl3
t
41
AVERAGE
l 0.040 l o.oo l O.Ob3
(35) t 3) (23)
7ODAOi AVERAGE
t 1) (12) I 1)
7ODAOi ICC213 AVERAGE
0.0 .loo
(11)
-0.07
l 1.3 0.0
CU
7613413
,020
739
CJ
700101
(10)
64
580
76GR13
ISO)
64
2*
7)
76Gi113
-.430 -.340
GU
159
3)
7OOAOl 7lMIiS llWiO2 76G%13 AVER4GE
JG JG
CJ
2*
7lti115 ?3ZAO? AVERAGE
160)
362
739
76GRl3
.050
4*
b4
7)
76GRl3
-.100
574
CJ
(111 I 6)
7bGR13 AVERAGE
(60)
64
609
4)
t
(60)
64
1,
t
-0.12
-.400 -.430
cu
0
-0.33
JG JG JGG JG
cu
2,
(50)
020
7OOA15
J6 JG JGG JF JG
0
-.
1
159
l*
(401
r-4
1,
344
7OOAlS
145
0
JG
31
-0.05
2c
165
t
IO01
J&
2+
to.03
-.ClO
756
159
(601
7ODAlS
1*
JG JG JP JG
-.050
1
0
270
t401
r-3
2+
1*
REFERENCE
t*2
.365
0
DELTA
to.22
JG
2*
Nuclei
(40)
,030
728
64
609
-.530
1+
cu
b4
.OOO
a
1+
CJ
-.300
JG
243
A4
A2
404
344
362
P
J
GANNARAY E tKEV)
2*
64
64
FINAL LEVEL EIKEV)
.370
CU
CJ
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
l 0.40
Oata Tables.
(13)
766Rl3
76GR13
Vol. 25. No. 1, January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE I. Experimental Data on Angular Distributions and Mixing Ratios in Odd-Odd Nuclei Supplement to ADNDT 22, 269 for A < 57. New Table for A > 57 See page 34 for Explanation INITIAL
NUCLIDE
LEVEL E(KEYl
J
FINAL LEVEL EtKEV)
GA
66
234
2+
44
GA
bb
291
2+
GA
66
335
24
GA
66
335
2t
GA
66
335
GA
66
GA
J
GAIWARAY E(KEV)
7 ECNNLPUE
A.?
A4
OiLTA
REFERENCE
i+
190
JG
PsN
-.170
(30)
to.11
4 31
7lNAl5
109
it
182
JG
PIN
-.030
(608
to.20
( 41
7lNAl5
109
1+
22b
JG
PeN
-0200
f401
71NAl5
66
2+
269
JG
PIN
2*
44
1+
291
JG
PA
382
It
109
1+
273
JG
PeN
bb
382
lt
44
1+
338
JG
PeN
GA
66
401
2+
2+
261
JG
PeN
140
GA
66
460
24
44
1+
416
JG
PsN
GA
66
531
24
44
14
487
JG
PIN
GA
68
175
24
0
I*
175
JG
PIN
;A
68
321
l+
0
it
321
JG
PIN
64
66
315
24
0
it
315
JG
PsN
GA
68
376
3t
2+
201
JG
PeN
a* a5
76
142
2-
l-
142
JG
76
254
3-
142
2-
112
JG
B*
76
492
4-
254
3-
238
82
76
585
5-
492
4-
09
76
1016
b-
a2 80
281
3-
a9 so
309
c-
BP 80
469
2+
I
203
3-
90
175
0
93
to.09
I
3)
(40)
to.10
(
6)
7lNAl5
(501
to.04
(
4)
7lNAl5
.210
(401
to.24
(10)
71NAl5
.ObO
(401
-0.05
(
9)
7lNAl5
,520
(50)
to.20
(
81
7lNAl5
.500 -.zlJo
-.290
,660
(50)
to.03
(
31
7lNAlS
(1101
to.87
(+25.-l?)
71NAl5
(201
,007
(25)
to.01
(
21
688103
(20)
,015
(30)
to.05
(
SI
688103
-.230
(201
.003
(271
-0.065
(35)
-.730
(20)
.lOO
(40)
to.25
(
5)
68EIO3
Ar3N
-.ldO
(301
.a00
(801
0.00
(
31
778El8
A.3N
-.310
(301
-.ObO
(IJO
0.00
(
3)
770El8
JG
A.3N
-.490
(601
.040
JG
Ar3N
-.500
(80)
Ar3N
-.650
(130)
,060
.015
-.370 .030
-.030
(1001
-0.065
(25)
770El8
(1008
-0.075
(251
77BEl8
(701
-0.15
(
7TBEld
(291
-0.03
( 1)
77DDO8
(501
to.10
(
4)
770008
5)
77DOOB
81
6lHE09 74KL06 AVERAGE
5-
431
JG
37
2-
244
JG
P*N
-.281
129)
85
5-
223
JG
PIN
-.274
(491
0
it
469
JG
PIN
-.309
(71)
,087
(741
-2.2
I
0
2-
203
NM NN
480 480
-.1?6 -.178
171 (5)
.003 .009
(ill (8)
-0.026 -0.020 -0.028
(
565
-.012
680103
5)
(
( 6) 5)
NB
92
286
3t
136
2+
150
JG
AsN
-.lbO
(101
.020
(101
-0.070
(14)
77OAOl
NB
92
390
3-
226
2-
lb4
J&
A*N
-.190
(101
. 000
(101
-0.135
(238
770101
NB
92
481
4+
357
5+
123
JG
A*N
-.120
cl01
.030
(101
to.044
(241
77OAOl
206
3+
195
JG
AtN
-.140
(20)
.oto
(20)
-9.009
(181
77OAOl
7+
501
JG
A+N
-.lOO
(101
.030
(20)
to.017
(34)
77OAOl
.120
(301
-.OlO
(40)
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t
77OAOi
(LO)
,190
(601
-0.90
(+29,-23)
Atomic
Data and Nuclear
Na
92
401
4+
NB
92
501
b+
0
Na
92
i415
44
286
3+
1129
JG
PsN
NB
92
1422
4-
390
3-
1033
JG
PeN
-1.000
38
Oata Tables.
4)
770401
Vol. 25, No. 1, January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE I. Experimental Data on Angular Distributions and Mixing Ratios in Odd-Odd Nuclei Supplement to ADNDT 22, 269 for A < 57. New Table for A > 57 Seepage 34 for Explanation INITIAL NUCLIOE
LEVEL ElKEVt
J
FINAL LEVEL EIKEV)
J
GrItMARAY ?lKEV)
TECHNIPUE
44
A2
Ma
Q4
302
2-
140
2-
161
JG
P.N
MB
94
334
2+
41
3+
293
JG
P.N
-.026
(28)
N3
94
396
3-
140
2-
256
JO
PvN
-.250
t22t
Ha
94
785
3-
302
2-
483
J&
p. ti
-.030
1281
Ha
94
793
3+
334
2+
459
J6
J’*N
-.148
129)
RH
100
159
1*
2,
84
4;
108
193
75
1,
0
1+
193
NH GG NM
,007
75 15 75
JG
P.N
1121
,113
419)
.180 .173
1111 (4)
-.006
12)
,004
REFERENCE
OELTA
113)
to.37
1131
77Fil4
130)
-0.07
f
7)
77FEl4
1231
+o.ocl
f
51
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-.015
130)
-0.17
t
7)
77FEl4
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1311
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77FEl4
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65EV05 6511434 TIRE06 4 VERL6i
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0
1*
20b
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121
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1181
76H457
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108
295
2,
0
1*
295
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PIN
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AS
108
338
3-
79
z-
259
56
PvN
18)
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Iill
-0.194
134)
7bti457
4G
iO8
379
l-
79
2-
300
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P.N
-.028
131
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IIOD
40.105
(70)
76Hb57
IN
LO8
272
2*
lb8
2+
104
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130)
1101
-0.7
34
272
JG
P.N
I101
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397
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1101
l 0.4
0
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669
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IN 108
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272
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I
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I
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b
78HSOl
sa
120
193
2*
78
3,
114
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P.N
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lb)
-.a10
191
0.00
1 4J
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sa
120
260
3-
8
2-
252
JG
PvN
-.299
156)
-.I77
OSI
l 0.07
1 5)
79dDO2
I
132
50
3,
0
4*
50
L/L 228 228
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14) 141
17)
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s-15) 1 bJ 1 6) t 4)
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Cj
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PR 136
60
109
3+
0
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60
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1+
0
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109
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(81
II
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L/L
1*3
0.171
39
Atomic
Data and Nuclear
Data Tables.
r-5
1 8)
Vol
790001 AVERAGE
1
75LL21
68ZHO4
25. No. 1. January
1980
K. S. KRANE
TABLE
NUCLI
OE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
I. Experimental Data on Angular Distributions and Mixing Ratios in Odd-Odd Supplement to ADNDT 22, 269 for A < 57. New Table for A > 57 See page 34 for Explanation
INfrIlL LEVEL EIKEVI
J
100
2-
134
l-
fINAL LEVEL EfKEv)
J
GAHHARAY E(KEV)
59
3-
Cl
NN
34
.073
(10)
100
2-
34
NM NN NW
100 100 100
-.226
(30)
-.250 -.270
(1001 138)
NM NN NN NN MN NN NN
80 80 80 80 80 80 80
-.250 -.lOZ
(1001
TECHNIQUE
A2
A4
-.012
.018
DELTA
l-
H3
156
82
1+
TN
162
45
t-
T8
160
106
2-
80
l-
53
2+
30
E
0
i-
45
E
64
l-
42
E
52
-.168
(201 (40) (30)
-.180
(40)
-.I.?0
to.046
(23)
69NA24
130)
-0.022 0.0
(26) t 1) (34) (20)
63BHll
+0.011)
-.130
(301
-.18b
(5)
.009 .050 .022 ,070
REFERENCE
(19)
-0.007 134
150) (60) (77) 173)
0.00 +o.io +0.09
(
7)
l 0.055 to.041 +o.oll
3)
75AL26
0.29
(
9)
726034
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0.00
(16)
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ra
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200
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(tZC.-16)
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128
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tt3
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0.039tt6 0.069(*6 0.064
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45
2-
67
JC
RE
182
55
3t
0
2*
55
E
RE
184
105
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0
3-
105
JG JC
67GUl7 69MA24 73SIOl 750A32 AVERAGE
(
lb8
170
668Ell
0.033
13 160
fli
63IWO2 632UO2
( 3) (20) (27) t 2) ( 3) ( 3)
to.043 to.049
L/L
63LY02 67GUl7 AVERAGL
( 1)
E
0
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(15)
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tll Ml
40
Atomic
Data and Nuclear
1
bIBAl
8
670All
1
670Al7 67BA17
.-2
)
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r-7 r-5 (25)
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675106 69KAt9 AVERAGE
( 51 4 5) t 5)
(
4)
t 4) (14) ( 4)
DataTables,
69KA19
75KQll AVERAGE
7OAKO2
73liUO6 73K801 AVERAIX
Vol. 25, No. 1, January
1980
K. S. KRANE
TABLE
LEVEL E(KEV)
Ml Mixing Ratios, Supplement and Corrections, December 1979
I. Experimental Data on Angular Distributions and Mixing Ratios in Odd-Odd Supplement to ADNDT 22, 269 for A < 57. New Table for A > 57 See page 34 for Explanation
INITIfiL NUCLIOE
E2,
J
3E
168
64
Z-
2:
188
94
3-
RI
188
PJ
194
291
35 81
FINAL LEVEL E(KEV)
J
0 64
6ANNARAY EIKEVI
A2
TECHNIQUE
A4
DELTA
I-
64
E
L/L
II.063
2-
31
E
L/L
0.14
(+3
l-
0
l-
2-
0
l-
291
35
Nuclei
REFERENCE
( 41 *-4
E
K
0.48
(*lb.-17)
E
L
0.14
(43
68SUOl 6BSUOl
s-4
I
77P420
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194
3-
35
2-
45
E
I
3)
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194
276
6,
107
54
171
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P.ZN
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(40)
-0.6
(
2)
77PA20
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199
407
81
245
74
162
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I
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370
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232
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370
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85
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421
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198
55
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516
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312
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I
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232
L
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0.22 +o.ilc
(651
5)
btW402
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t+15,-5
I
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I
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t
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t
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1963
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t
2)
77KR04
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2260
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297
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r
71
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TL
208
40
AN AN AN AN
6051
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(361 (36)
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(22)
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1121
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TL
TL
1L
20E
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208
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328
328
492
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5+
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0
0
40
40
5+
54
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288
452
6051 6051
6051
AU AN
S7b8 5768
AN AN
5768 5768
AN AN
5606 5bOb
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I+1
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to.062 ,015
(18)
(42) (211
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135)
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I
Atomic
Data and Nuclear
7)
(*CO,-14) (13) (+lZ.-101
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-O.bO -O.ObO
41
r-2
DataTables.
1101 ( 41 ( 4)
Vol.25,
I
77KPO4
AVERAGE 63CO28 b6KLZZ AVERAGE b3CO21 66KLZl AVERLGE b3CO28 b6KL ZZ AVERAGE
No. l.Januafy
1980
K. S. KRANE
TABLE
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22,269 (A < 57); 20, 211 (58 6 A s-150); 16, 387 (A 2 152) See page 34 for Explanation
IkfTIAL LE YE1
NUCLIDE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
FIWL LEVEL
EIKEVI
J
EtKEVl
GAlMAJ
RAY i (KEVB
TECHNIQUE
A2
A4
OELTA
REFERENCE
SI
2%
7798
3,
6276
3+
1522
JG
P
-.030
120)
-.040
(201
+3.1 t3.0
( (
SI
28
9310
34
6276
3,
3034
JG
P
-.ObO
(30)
-.oaa
(30)
-0.18
(20)
7aoILoe
Ch
42
6409
8-
6145
I-
-.210 -.240
(301 (20)
-.o*o
(30)
( 2J ( 2) tici
7bEGOt 78PROt
264
JG JG
0*2P A.P
6555
Y-
815
JG
b-
3534
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531
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4688
7+
3886
bt
728
JGG
A,P
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4668
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3597
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1072
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A.P
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2305
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2+
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f.P
MI
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2302
2+
24
1129
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1173
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(60)
ZN
64
1799
2+
JG JG JG
O,PZM ArN O,PZN
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CA
4.2
7369
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46
4065
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58
FS
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b4
2794
lo-
2+
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2979
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3+
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3005
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120)
7bSIO2
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3J
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5)
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(10)
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(40) (40)
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(10) (40)
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( 0)
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(12)
A.N
JG JG JG
A*N LXs2N
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(10)
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(+26.-l(1)
-.200
(30)
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(50)
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(tb
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(701
*cr.5
1+29.-13)
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169)
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(30) (16)
(50) (20)
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(60)
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(60)
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(30) (15)
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(401 (2)
(lb)
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(18)
(bOJ
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C.2P A.2N C.ZP
JG
Ct2P
AeP
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.3b6
42
(50)
Atomic
Data and Nuclear
1-8
IONE 78SIO2 7dYiiS AVERAGE
79YA23
)
760il23
77HD20
( 4) (22) ( 2) (14)
74NOO8 77MO20 790Ei2 AVERAGE
to.04 to.052
t 4) (20) ( 2J (13)
74NOO b 77l9020 79oi12 AVERAGE
to.5
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l 0.01 l 0.025 40.04
l 0.067
Data Tables.
2)
l
7.9SIO2
( bJ
(10)
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8,PN
l l
76SIO2
1)
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C*2P As2N L112N
value average
78SIOP
3)
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JG
AVERAGE
5J
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772
l
(
to.6
l *
77ALI4 IO.%02 78WEiJ
(
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l *
t
to.7
(30)
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2013
average incorrect previous
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)
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to.26
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6:
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79EK03
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AVfRAGE
(00)
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1180
762
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4)
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1016
GE
which which which
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2*
b-
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1799
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450)
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1173
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2,
63
GE
824
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0.00 0.00 0*000
YJ 0)
790El2
Vol. 25. NO. 1. January
1990
K. S. KRANE
TABLE
NUCLIOE
II. Exoerimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplemknt to ADNDT 22, 26<(A -c 57); 20, 211 (58 6 A sm 150); 16, 387 (A b 152) See page 34 for Explanation
IWI7IAL
FINAL
LEVEL ElKEVb
J
LEVEL ElKEV)
J
GAUSARAV ElKEV)
834
2,
b30
JG
A.2N
2,
615
JG
C.2N
2,
698
JG
GE
72
1464
2*
SE
74
1384
3*
KQ
82
I*74
2+
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776
ua
62
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UP
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l 0.3
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1)
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1 4)
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(64)
-0.10
1131
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2540
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133)
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WI.27
(60)
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o+
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A.2N
17)
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1222
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3339
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2,
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2+
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REFERENCE
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2066
3166
-.017
DELTA
1318
92
94
619
A4
A2
2*
zi
YD
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
2423
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b+
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1132
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934 NsN
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MT 703 703
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1101
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153)
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13.3)
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78CDOl taGLO AVERAGE
1101
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(111
74GLO4
-D.22
110)
7BGLO4
(401
-.I30
1601
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1*14*-8
)
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.ooo -.a45
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t )
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1101 1221
77BEl3 77BE38 7 9KA22 AVERAGE
703 703
.014 .139
120) 180)
.002 -.a74
1251 184)
+lJ.65 to.14 to.59
l+Zb,-48) ( 7)
JG GN GN
MT 703 703
-0.07
1+7
.l71 .206
(7) 119)
,010 -.020
120) (28)
l 0.04 -0.17 -0.01
.-1 ,-4 1 9) t 4)
(15)
,-5 1 4) (*17,-25) 1 3)
I
2755
b+
2441
b+
314
JG
MT
-0.5 -0.1
1 3) 1 2)
NO
96
2755
6+
2438
5,
3tb
JG
HT
+0.3
I
?I)
96
1930
2*
632
2+
1098
JG
P.P
-4.2
1+22.-14)
74A15
RU
96
2286
2+
632
2,
1453
J&
P.P
l 0.03
1101
79LAl5
QU
96
2578
2+
2,
647
JG
P.P
42.0
t New value which does not change previous average * New value which changes previous average
43
Atomic
Data and Nuclear
Data Tables.
75SA11) AVERA6E
21
,
* *
75SAl8
)
Vol
l
776Ei9 77BE3.5 79KA22 ~-~ AVERAGE
96
1+c
* *
77BE36 79KA22 AVERAGE
UO
1930
t
79LAlS
25. No. 1, January
1980
K. S. KRANE
TABLE
NUCLIDE
RU
98
RU
100
E2,
Ml Mixing Ratios, Supplement and Corrections, December 1979
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT22, 269 (A < 57);20,211(58 6 A c lS0);16,387(A 2 152) See page 34 for Explanation
INITIAL LEVEL E (KEY1
J
FINAL LEVEL E (KEV)
i4is
2t
b52
2,
762
1362
2t
540
2+
822
2u
100
iam1
3*
RU
100
1881
3+
I362
2+ 2,
540
9
519 i342
JC
P.P
NN
1107
zi GN GN
1553 540 1107 1553
GN
1362
NH GN GN GM
540 540 568 1034
GN
1930
100
291b
2-
RU
100
3070
1+
540
2,
2530
GN
540
PO
102
1534
2+
556
2+
976
JG
PD
102
IY44
24
556
24
1388
JG
PO
102
2112
3+
556
2+
1556
RU
104
2+
350
2+
535
2-
446
1 U2iNIQUE
zu
893
246
J
tAtIMPRAV f(KEV)
A2
.032 .I15 -.249 .lOO .063
.I49
A4
(39) (171 (241 (151 (24)
(70)
.224 .I98 -.I45
(52) (76) (791
-.I90
(36)
JO
104
106
2265
1128
4+
2+
1324
512
4,
2t
942
bib
IO6
155e
34
PO
IO6
1558
3+
PO
PO
106
106
1562
1932
t+
4+
ii28 512
512
JS
P+P
is
GG
358
GN
556
GN GN
556 556
GN GN
556 556
GN
556
56 GH
-.052
-.440 .20?
-.I90 .099 .0110
-.I00
(III
,314 -.092
.2?0
(19) (301
(60)
(00)
-36
(+54.-14~ 1+6
-3.2
1229
SN
512
2+
1046
JG JO GN GN
c,K 512
4+
703
GM GN JG
J6 6N
1199
411
(*IO,-3
+I6
(+22,-b
B 730128 1 AVERAGE
(150)
-2.8
t+31,-3
)
7 80128
. 004 -.020
(621 (40)
-0.90 +2*5
(221 (*I?,-8 (16)
I
720KOI 760126 AVERAGE
(40) (201
.058 -.OlO
(78) (201
+0.27 +0.32 to.31
(301
-.060
(90)
-0.87
(6)
,312
(12)
(40) (14) (37)
-.069
.066 ,396
(51 (17)
.03?
44
(29)
.OIO
(441
(50)
,010
(28) (65)
.023 ,042
(9) (31)
1108 ( 51 t 4)
to.93
(,13*-20)
+0.74
(22,
Data and Nuclear
l l
* l
* l l l l
I)
77RUOI 771101 AVERAGE
I
77ffOi
f
t 2) (131 (60) I 6) ( 2)
75SC36 76tRi2 77TIOI 77rzoi AVERAGE
iI*
+0.238 ( 61 +0.234~+37.-31~ to.16 t 11 +0.20 t II
77OK03 770K03 77RllOd AVERAGE
l l
-1.1
75s:3e 77llOl AVERAGE
-2.3 -1.8
(17) i+30,-3
-3.1 -4.5 -4.75 -2.4 -3.1
Atomic
78BA20 AVERAGE
(201
.I
(568
72OKOI 780A28 AVERAGE
~+00,-18t
-9.4
.I36
l
1)
7esuo4
-.220
.020 -.346 -.130
tll 522
41
(311 (20)
-.018
512 1062 It1
78SUO4 AVERAGE
I
(IIOI
(19)
.019
,-4 (
*
77LAI6
-18
-36 .OlS
5::
430
1050
J
77LAI6
2+
2*
,-8
??LAIb
-11.4 PO
(+IO,-iI~ t+9
*
68KA04 768129 700129 7 WA29 AVERAGE
(+?3.-268
(30)
PO
1
8
(422,~12)
(+21.-37)
-.I40
856
t+12.-2
(+Ib+-2
46.1
55b
4+
to.5 to.5 +0.41 +0.54 +0.52
*IO.4
GN
1324
(75) (78) (86) (40)
* * ' *
7081129
PIP
71b
4+
(+18r-IPt
p.p
2t
2182
+0.33
7 .%A29
556
104
-.030 .049 .O?I ,020
(1101
76BAt9
2+
PD
.I00
2)
5)
1342
1324
1
s-6 (
41
104
4+
(+9
(
PO
2082
+3.9 43.4
68KA04 68KA04 7881129 7.901129 700129 AVERAGE
t
117)
104
1 I
-0.64
-.410
PO
1+33.-15) (43 .-I (+8 s-6 ( 41
-4.4
358
159
+3.2 43.4 +3.5
(93)
GG
1265
tb.2
(241 (38) (33) (39)
(26)
884
4+
(40)
,011 .315 -.031 ,035
-.I28
2t
2+
-.026
-.021
358
556
79LAI5
(115)
3+
St
(+39.-25)
(11)
1242
102I
+13.4
.443
104
104
REFERENCE
.06?
RU
PO
OELTA
I
( 4) ( 21 t 4)
Data Tabtea.
Vol. 25, No. 1, Janualy
l l
l *
** ** *
l
l
*
1960
K. S. KRANE
TABLE
NUCLIOt
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22, 269 (A < 57); 20, 211 (58 6 A c 150); 16, 387 (iz 2 152) See page 34 for Explanation
INITIAL LEVkL E(KEVI
J
FINAL LEVEL EtKEVJ
J
PO
106
23Ob
C-
2084
3-
PD
106
2309
2*
1128
24
GANNARAV E(KEVJ
222 lllil
TECHNIQUE
A4
A2
GM
512
-.118
GN
1128
.293
512
.llO
(241 (751
-.003 ,109 -.003
DELTA
(481
-0.08
t
(140)
-0.06
(12i
(53)
l 0.18
(
PO
106
2309
24
512
2+
1797
GN
PO
106
2351
4+
1558
3+
793
JG GN
1046
.I84
(48)
,114
(92)
GN
512
,321
(501
.033
(96)
(27)
HT
106
2439
2,
512
2,
1927
PO
106
2705
1,
512
2*
2193
GN
512
PO
156
2757
5c
1229
4,
1528
JG GN
HT 512
?O 106
2903
2+
512
2,
2391
GN
512
PO
106
2918
2+
512
2,
2406
GN
512
PO
106
3055
1*
512
2*
2543
GN
512
CO 106
2105
4,
4+
611
JG JG
O.XN C13N
C,3N
1494
-.048
(63)
.262
(52)
.300
(28)
-.259
(72)
-.068
(123)
8)
-19
(*oo*-llJ (*ll,-21)
77DK03 75SC38 771101 AVERAGE
-0.10
t*9 (+Y
r-8 1-B
J J
770K03 AVERAGE
-0.17
(+b
,-5
J
770K03
-2.3 -2.35 -2.3
( 21 180) ( 2)
-0.02
(
(102I
81
.Oll
(54)
-0.07
(1381
l 0.01
(
74
77DKO3
(40) (21)
-0.31 -0.34 -0.33
( ( (
61 41 3J
78SlOl TYSAOI AVERAGE
t+5
.-4
77OKO3 I
77OKO3
.134
(31)
,116
(15)
.050 .033
(26)
,047
(26)
-0.58
(12f
79SAOl
(50)
,040
(80)
-0.18
(
79SAOl
(90)
.OYO
(90)
-0.29
(17)
79SAOl
.230
(120)
-0.39
115J
78S701
$3
106
2331
5+
2105
tt
226
JG
CD
106
2331
5*
1494
4,
837
JG
C.3N
C3
106
2925
b+
2492
b+
433
JG
C.3N
CO 106
3085
7+
2492
6,
593
JG
0, XN
-.610
(101
-.790 -.460 .170
5)
CO 106
3084
7,
2503
6+
581
JG
C13N
-.440
(50)
-.OlO
(701
-0.16
(
(0
7YSAOl
CD
106
3127
I+
2503
6,
624
JG
C13N
-.lbO
(80)
,100
(ISOJ
l 0.04
(
6)
79SAOl
CD
106
3320
6-
2629
5-
691
JP JS
OeXN C13N
.504
(17)
,117
(19)
.0.58 to.71 +0.70
122) t 7J t 7)
(60)
.ozo
(1001
-0.02
(
-.ObO
(70)
l 0.02
(23)
79SAOl
.035
(14)
40.15
( 1)
79sAOl
(2101
-0.37
(23)
79SAOl
CD
78SlOi 795101 AVERAGE
106
3367
8+
3084
I+
283
JG
C.3N
-.lSO
GD 106
3367
8+
3044
04
323
JG
C.3N
.300
(SO)
GO 106
3679
9-
3508
8-
171
JG
Cs3h
.ooo
(15)
C3 106
4436
lO+
4121
9+
315
JG
C13N
-.520
(1601
CO 106
5253
13,
4660
573
JG
C.3h
-.502
(171
.015
(18)
-0.035
(15)
7YSAOl
co
100
2975
b-
2601
5-
374
JG
OIXh
.4b3
(30)
.072
(27)
+0.56
(
6J
78SlOl
c3
110
1476
2+
2,
818
.376 -.051
IlbJ (19)
,231
(211 (25)
-1.42 -1.5
(
9)
-.018
(+20,-b
.416
(41)
,075
(58)
-1.25 -1.29
( 5) (*22,-10) ( CJ
-a.44 -0.6 -0.50 -0.7 -0.85 -0.50
t+ft ,-4 (412,-Z (45 r-4 ( 3J (25) I 8)
-1.65 -1.3
( 9) t+e .-4 (+22.-6 ( 41
658
12,
1: JG GN
CD
CD
110
110
2lb2
2162
3+
3t
1542
1476
4*
24
620
686
658 764 HT 658
G6 66 66 JG GM
658 764 885 Hf I85
J6 G6 GM
HT 764 764
-.140
-1.2
.198 .O% .231
{25J (23) (231
-.027 .048 -.003
(311 (31) (32)
.3%
(91)
.050
(130)
-.I117 -.222
(14) (87)
-.037
(181
-.076
(1151
-1.5 -1.76
45
Atomic
Data and Nuclear
Data Tables,
* *
75SC38 777101 AVERAGE
,083
-.043
t
77OKO3
l+11.-21)
-0.10
771101
4)
-7.0 -7.0
PO
REFERENCE
6)
79SAOl
J
J 1 J
J 1
77RULl 77RULT 78JtAD7 7WE03 AVERAGE 77RUZl 77RUZT 77RUZl 7lYAO7 7 9VE03 AVERA6E tan107 77RUZT 79VZO3 AVERASE
Vol. 25. NO. 1, January
L
x * ii l * l i * * l l l l c
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22, 269 (A c 57); 20, 211 (58 =ZA c-150); 16, 387 (A 2 152) See page 34 for Explanation
INITIAL NJCLI
OE
LEYEL EtKEY)
CJ
CD
CD
Cl
110
110
110
110
2162
2220
2927
2927
J 3+
4+
5+
5+
FINAL LEVEL EtKEVJ
656
GAHNARAI J 2+
1542
4+
b+
2400
2220
4t
1505
676
447
707
JG SC GG JG GN GG GG JG GN GG GG GG JG GN GG :tH
CD
110
2927
5*
1542
I*
1364
GG GG 5:
SN
112
2154
2,
CD
114
1209
24
:D
114
lab3
3*
CD
114
22a4
:D
114
2317
CD
114
SN
ii4
CO 116
B
I 5)
tt2
7) 2) 3) 6)
,-1
(161
I
77RUZ7 78WAO7 79VE03 AUERIGE 77RUZT
l
77RUZf 76YAO7 79VE03
I
AVERAGE
l
77RUZl 77RUZ7 77RUZl 7QWAO7 1 79VE03 AVERAGE
79VEOJ
"
AVERAGE
*
-Q.44 -0.45 -0.39 -0.42 -0.421
( 28 ( 4) t 2)
77RUZT 77RUZl 78YAO7 J 79VEQ3 AVERAGE
’ * tl * *
(t7
r-b
(121
b
760E42 AVERAGE
NIN
-0.10
(t5
.-2
)
76Lli42
NwN
-0.10
f+5
,-3
)
76OC42
NIN
40.5
t+5
r-2
I
760542
-0.10
I*3
r-2
)
7bOE42
2*
940
JG
NsN
iZl4
2+
2+
700
JG
N-N
-.oto
460)
lt
tllot
to01
-1.5 -1.5
It5
.-3
1+4
,-2
760E42 J AVERIGE
-0.30
(tb
s-9
I
)
-1.5 -1.5
(+I
r-3 4)
I
(30) (401
-1.9
(t7
,-5
)
NwN As2N
-.29Q -.230
(50) (20)
932
6N
1293
-.310
(201
613
J6 JS
NeN A.2N
-.17Q -.060
(40)
-5 -12 -7
(tb
JG
NeN
-.I20
140)
-10 -10
ItOO,-
I
(tOO.-5
1 AVERAGE
92b
46
.370
160)
Atomic
Data and Nuclear
tt5 .-2 (too.-7
Date fables.
r-3
* l
7bOE42
JG JG
t
* *
790537
NsN
-.030
I
79DE37
JG
619
l
f 3)
a+5 s-2 i+37.-16)
1300
l l
tt93.-74)
-1.0 -1.19
2+
0
-1.0
N*N
2240
*
(91
itzs,-la)
N-N
II
*
I I
ts.0
JG
*
77RUZI 76WAO7
(21
1829
*
31 7)
-.Olb
.iQQ
(la I)* ti *t ** 1)X
d.42 -1.73
(30)
2*
24
XK
( 21 (40) I 9)
-1.1
-.31%
550
1172
-.018
-1.2
(15)
Ill) (18)
3,
2*
145)
-.OlO
-.017 ,017
2387
2097
-.336
till
(9) 115)
JG
2+
-.365
117)
121) 128) (24)
-.321
JG
1230
f t 4 I
-.ObO -.Ol.? . 026
-.331
1107
2+
-0.31 -0.33 -0.33 -0.40 -0.39 -0.334
lib) lid1
885 HT 885
L6(16
2043
(t22,-8 I 7) I 31 115) I 2)
658
24
SH
-0.24 -0.33 -0.3b -0.25 -0.34
l 129 .il4
2*
2+
r+17*-9
835 937 nr 937
558
1293
-1.09 -0.40 -1.21
.il4
1209
2+
(70)
658
2,
2225
-.164
(53)
3+
SY 116
155)
. 000
JG
24
-.413
(371
t305
1293
-1.16
.240
2t
2*
I 6)
(25)
bs"i
865 nr 2.35
-1.26
(1111
.005
558
2112
127)
-.OQ3
112)
JG
SY 116
,017
-.060
(16) (16)
650
1402
li6l
(15) (161
0011
2t
2+
REFERENCE
-.2Q9
(12)
556
514
DELIA
.248 .26i
N*N
514
A4
650 685
JG
3+
120
-.55?
395
7
1916
SN
-.2Q3
2+
125
CD 116
116
A2
tffiH~tPuE
E (KEV I
3%:::
+t
79K101
I 7 8lE31 I 798907 # AVERAGE
760E31
Vol. 25, No. 1, January
* l
1980
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
K. S. KRANE
TABLE
NUCLIDE
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22, 269 (A < 57); 20, 211 (58 s A G 150); 16, 387 (A z 152) See page 34 for Explanation
INITIAL
FINAL
LEVEL kL(KEVl
LEVEL ElKEVJ
J
J
GAIWARAV ElKEVJ
1013
140)
l 4
1+2
998
JG
NeN
.140
150)
l 3.0
(412.-6
2+
723
6N
603
.lOl
(5)
.2a3
17~
-3.65
(14)
2,
714
GN
723
.143
(141
,042
li7J
tl.13 +1.26
(+17.-221 (+lS,-181
+tl tb.9
(*I v-3 1+42.-17)
2+
1140
2,
SN
124
2130
2+
1132
24
TE
124
1326
24
603
TE
124
2039
2+
1326
Xi
xz
8A
94
126
128
134
134
880
969
llb8
1643
354
2+
2*
2+
24
3+
34
L31r
lb43
3*
34
134
197B
44
389
443
605
1168 605 1401
2+
2+
2,
2t
2*
492
491
526
563
475
2*
1038
4*
5b9
GN
GN
140
2348
2,
1597
2+
752
354
389
-.I60
-.133
140)
1131
,320
.290
(50)
1301
1bOJ iaot
+b
144 1+4
-8.1 413.3 iI8 +13.3
1*29*-16J
-10.0
(+46.-24)
-13
146
-.200
613
-.ObO
140) 160)
.3ao ,250
GN GG GG
802 605
-.04b
tbJ
-.I27
-.a12 ,329
19) (12)
802
-.a10
(8) 110)
-.003
1141
GN
lib8
-.280
123)
-.029
131)
605
.303
GG
605 795
.099
lb)
.112
(71
GN
130)
-.063
,007 ,017
J
7bOE31
b
780.531
.b
s-2 r-2
1+23,-10) c+a2,-a 1*23.-181
r-3
t
79SH08 79SH06 AVERAGE
8
(+39.-26) IJ 1+24.-201
443
GG
412.6
v-1
+13.
GG GG
GG
CE
REFERENCE
l lOO
2153
84b
DELIA
NsN
122
124
44
A2
J6
SY
XI
TECHNIQUE
J )
)
J
l
*
79SIll AVERAGE
l
*
76SA26 AVERAGE
;
79SZO6
t
79S:Ob
t
73G410 77RUZT 77RUtT AVERLGE
* * * *
736AlO AVERLGE
* *
142)
to.82 +1.3
(19) 1 38
77RULT AVERA6E
* *
191
40.27 tO.24 40.275
1 2) 1 CJ
110)
77RU21 77RU21 AVERAGE
* *
to.35
l 0.344
1 CJ (241
73RQ32 AVERAGE
II
llll
1597
l
l
CE
140
2412
3+
1597
2*
816
GN
1597
-0.03
1 2)
73R032
t
CE
140
2522
2+
1597
2+
925
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1597
-0.15 -0.15
1 3J 1 3J
7311032 AVERAGE
*
0.00 +0.09
1 6) 1 3J
TSR032 AVERA6E
CE
NO
140
14b
2548
1471
lt
1597
2*
2*
454
2*
951
GN
1597
1017
GN
454
-.133
(74)
.399
1142)
l 13
1+19.-a
J
7aIK03
11501
,140
1300)
-5
t+sa,-3
I
71lIK03
J
7afK03
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1778
3+
454
2+
1324
6N
454
-.360
ND
146
1768
2+
454
2+
1334
GM
454
.370
(140)
.220
(260)
-1.4
1+10,-a
NO 146
1906
2+
454
2+
1452
GN
454
.463
lf3J
.099
t991
-0.68
1+5b.-42)
sv
146
2056
2-
llb2
3-
a96
GN
550
141)
.1.32
I
sn
140
2194
b+
1906
bt
288
GN
550 726
114) 113)
to.069
127) (28) 119)
GN
-.476 .164 .155
(16~ 16) 17)
-.207 .ooa .007
l o. 108 +0.0(14
47
Atomic
Data and Nuclear
Data Tables,
91
l
l l
7anco3
77K414 77KA14 77KA14 AVERAGE
Vol. 25, NO. 1. January
a a l
1980
K. S. KRANE
TABLE
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22, 269 (A < 57); 20, 211 (58 G A s 150); 16, 387 (A 1 152) See page 34for Explanation
INITIAL NUCLLDt
SY
SY
155
150
EL 441 Mixing Ratios, Supplement and Corrections, December 1979
FINAL
LEVtL tlKEVJ
J
1046
2+
1194
LEVEL LtKEVJ
24
334
334
GAblNARAT J
TEWNIPUE
A2
A4
DELTA
REFERENCE
EtKEVJ
2+
2t
712
'360
GN GN
334 334
GN
334
,055 .a88 -.247
(341 134)
,330
.264
(60) 154)
(42)
.263
(63)
-5.0
(+20*-12J
-4.7 -4.5
t+12.-9 I+4
t3.4 +3.b
(168
t2.0
(
77HDOI
w-3
J J
77N009 AVERAGE
(+16,-111 (*B t-6
J
AVERASE
77n009
l
I) * l l
to
150
1431
24
638
2t
GD
150
1519
2t
636
2t
880
JG
Hf
-.019
123)
t7
G3
150
1700
4+
1286
4t
412
JS
ttr
-.I90
i6OJ
-0.20
1956
2t
1431
2t
525
JG
HT
-.229
(661
to.19
(t26.-15)
isa
2084
2-
1134
3-
950
JG
HT
(71)
to.4
1t2
GD 150
2092
2,
1519
2t
573
JG
IiT
-.461
(96)
to.7
(
4)
7 btlA42
GO 150
2092
2+
636
24
1454
JG
UT
-.054
(24)
-0.24
c
5)
TWA42
GO 150
2426
2+
636
2,
1108
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HT
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(391
to.7
(
31
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965
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nr
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(12)
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134)
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JG
HT
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1101
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117)
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154
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.250
160)
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48
(82)
(30)
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Atomic
(0 21 2)
77GIJiO AVERAGE
l l
1
61 J
J 3J
J
AVERAGE
l
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l
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* l
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(+14.-12)
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Dete end Nuclear
Data Tables,
l
AVERAGE
(60)
)
l
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(110)
s-5
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AVERAGE
(tlb.-11)
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4+
bt
9)
(,21*-9
A.2N
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1912
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154
154
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J I
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71)HA42
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(20)
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(13)
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71
7aYEOI 78YEOI
Vol. 25, No. 1,Januery
1080
K. S. KRANE
TABLE
NUCLIDi
GO
156
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22, 269 (A < 57); 20, 211 (58 5 A =s 150); 16, 387 (A B 152) See page 34 for Explanation
INITIAL LEVEL E(KEV) 1129
J 2t
FINAL LEVEL EIKEV) 89
J
GANMARAY ElKEV)
2+
1040
GD 156
1154
2+
GO
156
1248
3t
GO
156
1248
3t
.39
2t
GO
156
1256
2t
89
GO 156
1511
4t
GO
156
1511
4t
CD
15b
lb22
5t
GO
156
1966
lt
GD 156
1966
l+
GO
156
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
2027
l+
tt
A2
89
-.060
-.033
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1201
(5)
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,335
(401
Ill)
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itoll*-24) (t19.-7
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t f
79RI17
t
1159
JG
nr
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(*CB,-23)
79RI17
t
2,
1169
GG
89
+0.38
(t6
3,
262
JG
MT
t7.65 48.3
I+59,-51) I 4)
79RII7 AVERAGE
* *
288
4t
1222
JG
HT
-1.70
(+21,-16)
79RII7
t
268
4+
1334
JG
nr
-3.40 -3.8
t*57*-45L t 2)
79RIl7 AVERAGE
* *
2+
812
GG
89
.033
2t
1877
GG
89 69
-.52.3
09
.364
1248
1154
89
89
2*
1938
6G
-.040
140)
.020
(90)
-0.083 -0.059
(21) I 7)
77C322 AVERAGE
* *
128)
-.068
(55)
to.31
I
5)
to.35
I
4)
77CO22 AVERAGE
* *
-0.61 -0.57
t t
4) 2)
77CD22 AVERAGE
*
I I
3) 2)
77CD22 AVERAGE
* *
(241
-.236
145)
89
.630
(40)
-.510
190)
-1.5 -1.3
GO
156
2270
l+
89
2t
2181
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89
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(401
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(100)
-0.66
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160
2t
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2*
679
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07 299 HT
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(61 (9) (7)
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160
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(21) I.31 (24)
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112) (15) 126)
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(40)
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(45)
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BOB
2*
01
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nr
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JG
WIN
It8
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768IiO6 768406 7913222 AVERAGE
-9.0
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79GR22
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1+27*-17)
76BHO6 76BH06 79GR22 AVERAGE
115) (
-6.7
t 5) (45) I 5)
-0.7
I
t6.5
3)
-0
t+oo.-5
-30
(too.-161
79G922
)
77HDll AVERAGE
8.32
JG
NvN
-19
l+oo*-l3)
266
4+
795
JG
NvN
-1.0
1+00,-6
)
77liOll
5t
266
St
917
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NwN
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)
77HDll
1286
5t
667
6,
620
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Ar2N
-.140
(140)
-.lOO
(190)
162
1286
5t
329
St
957
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A.2N
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.I90
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Ei
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164
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669
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1*00.-4 (t14.-3
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162
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162
1133
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162
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762
3t
Z+
73
(+16.-101
I
76NE24 76WE24
t )
77NOii AVERAGE
164
828
3*
2+
755
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N-N
-29
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77HOll
164
916
4t
242
4,
674
JG
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ZIHOil
OV
164
5t
242
4+
733
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WIN
+5
c*oo.-3
Atomic
Data and
Nuclear
Data Tables,
1
Vol.25,
7
76WE24
OV
49
l
*
77no11
OV
1025
73
0.00
l
77C322
2t
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372
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(10)
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4t
)
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2098
284
r-5
(5)
2+
DV
* *
(191
89
4+
77CO22 AVERAGE
l
-19
960
l+
1156
l
nr
4,
2187
160
2) 2)
77CO22 AVERAfX
JG
286
156
OV
I
89
2,
GO
966
REFERENCE
DELTA
GG
89
1065
TECHNIPUE
l
0
77HJll
No. 1. January
1980
K. S. KRANE
TABLE
NUCLIDE
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22,‘269 (A < 57); 20, 211 (58 G A ~-150); 16, 387 (A 2 152) See page 34 far Explanation
INITIAL LEVEL
EIKEVJ
J
FINAL LEVEL EtKEVJ
J
E3
164
1545
7,
614
6+
EU
166
786
2+
81
E3
166
a59
3+
E3
166
859
3*
ER
166
956
E2, MI Mixing Ratios, Supplement and Corrections, December 1979
Y+
265 81
265
GAMNARAV EIXEVJ
tECI+NIPUE
A2
931
JG
A.ZN
2+
705
JD
1-A
44
594
GU
31
2*
779
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C+
691
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A4
1100)
(84)
.310
.059
DELTA
(150)
f110l
61
-6.5
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c*
166
166
1074
1074
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5+
545
2b5
6+
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530
810
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2+
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80
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166
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896
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61
51
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J 750139 8 AVERAGE
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-0.15
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30 -3.1 -46
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(231
Atomic
Data and Nuclear
Data Tables,
I
7dNCOZ
8)
-3.2 -3.37
4+
* S *
(121
1332
va
756A39 76Yi24 AVERAGE
76WE24
170
79
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170
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100)
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52
172
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V3
t
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t
750139 76YE24 1 AVERAGE
81 AtZN
76YE24
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REFERENCE
78liCO2 76KRO4 AVERAGE
*
7bKR04
*
AVERAGE
A
l
76KRO4 76KRO4 AVERAGE
l l
76KRO4 AVERAGE
l
I
l
)
76KRO4 AVERAGE
Vol. 25, No. 1, January
l
l
1980
K. S. KRANE
TABLE
rJlJCLIOE
YE
172
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22, 269 (A < 57); 20, 211 (58 c A c 150); 16, 387 (A 2 152) See page 34 for Explanation
INITIAL LEVEL E(KEVl
J
FINAL LEVEL EIKEU)
lb63
3*
1263
VB
it2
1663
3t
I3
172
lb63
3t
VB
172
lb63
3*
13
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172
1701
34
1172
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4,
GANNARAV EIKEVI
400
TECHNIQUE
JG
A2
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3t
490
JG
HT
260
4*
1403
JG
MT
79
24
15.34 JG
HT
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.lb2 -.I34 -.Zbl
A4
REFERENCE
DELrA
(401
0.00
(
(lb)
(46
r-5
119)
l 40
(too*-201
*ii
63STO9 7bKRO4
*I6 l 13
( 2) I 3) I 2)
AVERAGE
19)
to.05
t 41
76KQOc
(9)
HT
260
4t
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1263
44
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HT
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VB
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577
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HT
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172
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172
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410
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172
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172
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to.40
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to.40
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4YLRLGE
-.I60
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-.266 ,112
HT
l*oo.-l3~
(2)
VB
172
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260
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172
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b+
V3
172
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VB
172
2192
54
1263
44
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172
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3t
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tlT
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172
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1803
44
482
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tlT
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172
2285
4t
1749
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536
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HT
VB
172
2285
4t
1701
3t
5u5
JG
HT
VB
172
2285
ct
1263
St
1022
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HT
VB
172
22a5
4t
1172
3t
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HT
VB
172
2344
4+
1263
St
1081
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HT
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-.I12
(381
*lb
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HT
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(19)
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HT
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(55)
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(42)
to.08
(*IBe-11)
7bKQO4
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(39)
-0.02
I
7bKQO4
(71)
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(18)
to.11
(13)
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7bKROC
(67)
-0.17
(
7bKRO4
(24)
.240 -.299 .430
Va
172
2344
4t
260
Ct
2083
JG
HT
-.I15
(13)
to.40
Ii
182
1442
4+
329
c*
1113
GE
100
-.127
(38)
-20
w
182
1757
bt
681
bt
1076
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100
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139)
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w
166
1045
3-
952
2-
93
JG
A.4
Data and Nuclear
91
7)
7bKR04
7bKQO4 75YE22
4)
1*15.-1
Data Tables.
76KQ04
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l*o0.-13l
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*
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*
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(45)
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(14)
to.066
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7bKR04
JG
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7bKRO4
528
VB
172
1
3+
1172
3+
va
7bKPO4
4)
to.13
75WE22 1
Vol
25, No
77llc11
1. January
1980
K. S. KRANE
TABLE
Ml Mixing Ratios, Supplement and Corrections, December 1979
II. Experimental Data on Angular Distributions and Mixing Ratios in Even-Even Nuclei Supplement to ADNDT 22, 269 (A < 57); 20, 21 I (58 c A 6 150); 16, 387 (A 3 152) See page 34 for Explanation
INITIAL NUCLICE
E2,
LEVEL EIKEVI
6Awlfn-
J
FINAL LEVEL E(KEVI
J
RAV E(KEVl
TECHNIQUE
A2
A4
OS
186
767
2+
137
2+
630
JG
nr
OS
186
910
3+
137
2+
773
JG
WT
OS
186
1070
44
434
4+
636
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Ill
.123
(321
OS
186
1275
5,
434
4t
841
JG
HT
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OS
166
1352
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910
3t
442
JG
HT
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186
1461
4+
434
4+
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186
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869
64
622
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nr
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186
1560
St
4t
489
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HT
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186
1813
6+
669
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186
605
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266
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340
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192
612
2+
316
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296
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E L/L GN 518 NN'N 58vl6
.056 -.045
DELTA
REFERENCE
(44)
11
IOOI
78SPO5
t
(10)
32
(00)
76sPO5
t
*ii
1+45,-5
18
(42)
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(20)
7llSPO5
(20)
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(26)
7
toot
76SPO5
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15
coo,
78SPO5
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(40)
to.43
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2)
78sPO5
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(37)
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5.4 +6
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(7) (21)
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t
74vo13 75KA42 75PA23
t
t
sr
192
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612
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308
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612
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(51
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47.4
I
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75KA42
t
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192
921
3+
316
2+
605
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316
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171
-.080
(Ii)
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f (
21 51
75KA42 AVERAGE
l
t27 +22
I t
5) 3)
75KA42 AVERAGE
to.006 -0.221 -0.010
I 6) 1801 I 4)
77KO47 77nco1 AVERAGE
*
PT
PB
P3
194
206
206
622
1341
1684
2+
3+
St
329
803
134i
2+
2+
3+
293
537
343
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645
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151
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till
l
l l
l l
Hi HT
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(13)
JU
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I 7) (20)
77KO47 77NCOl
t t
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Pd
206
2384
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2200
7-
184
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150)
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t
P8
206
2782
5-
2364
6-
39a
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fir
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(26)
to.046
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206
3279
3-
2782
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497
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131) (211 I dl
77KDb7 77UCOl AVERAGE
l
4.018
110)
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(25)
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-0.082
IlOl
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115) (201
T/K047 77tlCOl
t t
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76AVO3 AVERAGE
*
(20)
to.015
(121
76AVO3
t
(10)
-0.052 to.03
(4% t 31
76AV93 AVERAGE
4
JG JG
Ml 41
620
JG
YT
6-
LDIS
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HT HI
5-
277
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206
3279
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895
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206
3403
5-
2672
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Pd
206
3403
5-
2384
Pa 208
3475
4-
3L96
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208
3475
4-
2619
3-
860
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2615
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20.5
3709
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3196
5-
511
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Pa 2oa PB
206
3920 3961
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3190 3190
55-
722
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763
583
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.i63
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.i33
(28)
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IS)
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533
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(30)
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IZDJ
to.31
(49) (tOI
.005 -.070
146) (70)
40.10 -0.01
(
to.02
7)
.-ii)
1+9 t t
61 51
4
? t t
4
l
76AVO3 6lSIll 76~~03 AVERAGE
l l l
* New value which changes previous average t New value which does not change previous average
52
Atomic
Data and Nuclear
Data Tables.
Vol. 25. No. l.January
1980
E2, MI Mixing Ratios, Supplement and Corrections,
K. S. KRANE
December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 d A s 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIDE
SI
27
SI
27
SK
27
INITIAL LEVEL EtKEVJ
FINAL LEVEL EIKLVJ
2J
957
GAMNARAV :(KEVJ
25
3,
0
54
2164
7+
0
5,
2647
5,
3*
957
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4vJ4
2164
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A.N
lb90
JG
ArN
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-.650 -1.070
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OELTA
(50)
(
4J
77Sl32
t
-0.4e -0.43
( (
3J 3J
77Sl32 AVERPGE
* *
-0.12 -0.079
( 3J (12)
77SC32 AVERLGE
* *
(170)
-0.36 -0.414
(14) (44)
77$132 AVERICE
* *
(20)
.I50
(401
(401
27
2647
SI
27
4450
AR
39
2090
5-
AR
39
2480
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4.3
39
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39
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39
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39
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39
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39
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41
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41
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41
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t
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755716
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t
40.001 40.008
(12) t 8J
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* *
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l 0.2
(
ZJ
7BEGO2
130)
-0.9
(
3J
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(
5J
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40.12
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7J
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110)
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( 7J (31)
79BE27 AVERA6E
l
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220
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(10)
1395
54
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3+
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ArN
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(10)
43
1932
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373
s-
1560
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A.N
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1932
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43
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CL
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373
0
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3-
373
REFERENCE
*0.50
SI
CL
5,
957
Tc;CliNIQUE
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(10)
(+35,-27)
51
3J
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l
*
l
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(10)
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79BE27
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( bJ
79BE27
120)
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(20)
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Iill (11)
79BE27 AVER4GE
l
C
t New value which does not change previous average * New value which changes previous average
53
Atomic
Data and Nuclear
Data Tables,
Vol. 25, No. 1, January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 s A c 149); 18, 137 (A > 150) See page 34 for Explanation
NlJCLIOti
INITIAL LEVEL EIKEVJ
2J
CL
43
2103
3-
c4
43
2250
9-
FINAL LEVEL E(KEYJ
cANMARAY EIKEYJ
2J
593
3-
1509
JG
AIM
I-
2250
JG
AeN
9
c4
43
2951
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43
3051
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43
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2951
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43
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43
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554
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1985
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439
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815
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(20) (20)
(10)
-.050 .050
* 030
DELTA
REFERENCE
(30)
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(17)
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(301
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(12) (12)
79BE27
(10)
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4 21
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(10)
to.30
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79BE27
-.300
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(40)
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130)
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A.N
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(20)
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76KA32
47
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140)
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51
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-.610
(120)
-.070
MN
51
6465
23-
5637
21-
A31
JG
NIq2PN
-.470
(100)
,000
(1201
MN
53
2564
13-
1441
ll-
-.260
(201
.050
(20)
15-
2693
l
5-
MN
3440
7bKA32
JG
NW
53
15-
;
1224
-.lOO
NM
(111
l
io.02
099
9O
1139
:
AVERAGE
-.020
1r
749
,270
A4
(201
192
5-
A2
1122
747
JG
Jt J6
.290
0*3P
.511 .420
AeP 0*3P
(27) (601
.035
-.OlO
(29) (50)
0.17
0.00
0.00
I 18
796UlO
l
+a.004
c 91
AUERlCE
*
to.15
(+10,-17J (*la.-261 (t9 s-14)
73SAlD 7961110 AVER46E
l *
iO.16 +0.15
54
Atomic
Data and Nuclear
5J
Data Tables.
Vol. 25, No. 1. January
f* l
'
lS80
K. S. KRANE
E2,
Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 s A s 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIDE
INItIAL LEVEL E(KEV)
FINAL LEVEL E(KEVl
ZJ
25
GAWAPA'1 E(UEVl
TECHNIQUE
A2
DELTA
A4
MY
53
4384
17-
3440
is-
943
JG
0.3P
-.380
CL01
-.OlO
(40)
MN
53
7004
23-
6533
21-
471
JG
0.3P
-.250
(401
-.030
(40)
Fi
53
1424
683
JG
s-
712
3-
-0.08
9sUlO
I
2)
7
I
4I
79GUiO
l 0.36
!
e-2 2)
(12)
0.00
+0.36
A.N
REFiRENCE
(+6
)
7OKA32 AVERAGE
* *
79sIO4
t
t
MY
55
1805
7-
0
5-
1885
JG
N.N
+0.12
HN
55
2199
7-
0
5-
2199
JG
NvN
-0.31
(+29.-261
79s104
FL
59
473
5-
0
3-
473
JG
O,A3N
-.250
(50)
-0.02
(
77NA10
0
3-
571
JG
OsA3N
-.560
(20)
41.1
110)
77YAlO
5-
452
JG
0.A3N
-.630
1201
l 1.1
I
9)
77MLlO
5-
a*2
JG JG
l 1.0
111)
a.03 l i.62
(20)
* *
fl.Sl
77P906 77YbO3 AViRAGE 77PAO6 77nAO3 AVERAGE
* * *
77ULO3 AVERAGE
*
Ff
59
571
5-
FE
59
1023
7-
NI
61
909
5-
NC
NI
bi
61
909
1015
0
1100
3-
NI
bl
1132
5-
1132
3-
67
7-
61
61
67
5-
NI
NX
571
5l-
283 b7
5-
5-
0
3-
909
947
617
1065
1132
P*P A.N
JG JG
PIP A*N
JG
A*N
,117 .150
-.lOS -.2a0
,470
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A.N
-.OlO
JG Jti
P*P 4.N
,127 .210
JG JG
AeA A.N
-.185 -.440
162) (101
(381 (10)
I101
.020
120)
(101
-0.18 -0.16
I I (
I101
+2.4b 42.46
(151 (141
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-.020
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4)
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(101
to.23
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(56) (10)
(10)
to.5 l 0.14 to.14
t*13,-5 (121 (12)
)
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1
(10)
-0.6 -0.47 -0.40
91 81
77PA06 77WAO3 AVERAGE
(491
(101
.OlO
71
l
l
77YAO3 77P106 77YAO3 AVERAGE
l l
i * l l
NI
61
1454
7-
67
5-
1387
JG
A*N
.440
(201
.150
(30)
l 2.7 +2.7
I (
41 41
77w403 AVERAGE
**
NI
61
1609
5-
67
5-
1542
JG
ArN
.160
(10)
,000
120)
-0.07 -0.06
I I
51 51
77WAO3 AVERAGE
l
* *
NI
61
1609
5-
NI
61
1808
9-
NI
61
1968
NI
bl
1988
YI
bl
1997
5-
0
3-
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61
2018
I-
67
5-
'41
61
2409
0
3-
1609
JG
AvN
ArN
(10)
.OlO
(201
-0.33 -0.33
(14) (14)
77WAO3 AVERAGE
.570
(201
.060
(201
l 0.97
(18)
77YAO3
-.400
1015
7-
793
JG
9-
1454
7-
533
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(20)
l 0.02
1 3)
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9-
1015
7-
973
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A.N
-.790
l.20)
.ObO
(30)
-0.70
1238
77WAO3
1997
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ASH
-.430
(10)
.020
(201
-0.27
i
77YAO3
1951
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AeN
-.260
(20)
120)
-0.02 -0.02
9-
1454
9-
7-
955
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AWN
-.300
-.030
-.030
61
t+7 (47
,-2 e-2
I )
77WAO3 AVERAGE
(30)
.020
1401
-0.10
I
5)
77laAO7
9)
77WAO7
HI
61
2409
1015
I-
1395
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A-N
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I3001
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-1.2
I
HI
61
3259
ll-
1906
9-
1272
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AeN
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1401
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150)
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(12)
77UAO7
HI
61
3298
11*
2121
9+
1177
JG
ArN
(10)
.070
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to.63
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HI
61
3426
13-
2129
ll-
1298
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AsN
(50)
.450
(70)
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(
4)
77WAO7
NI
61
4019
15*
3435
134
584
JG
ArN
(30)
.lOO
1401
+0.63
(10)
.440 -.720 .560
Atomic
Data and Nuclear
Data Tables.
*
l
l
* l
77YAO7
Vol. 25. No. 1, January
1980
56
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 G A c 145); 18, 137 (A > 150) See page 34 for Explanation
hl!JCLIDE
CJ
61
CU
61
CJ
65
INITIAL LEVEL E(KEV)
ZJ
970
FINAL LEVEL E(KEv)
GAMA2J
rECHNIPUE
RAOr E(KEV)
A2
DELTA
A4
5-
0
3-
970
JC
P
-0.13
(
3J
71KI29
t
1394
5-
0
3-
1394
JG
P
-4.0
I
3)
7lKI29
t
1327
?-
5-
365
JG JG
77EK03 77PAl5 AVERAGE
l
962
P P*P
-0.073 -.270
(30)
.020
(20)
-0.10
t+5
-0.090 C3
CU
63
63
1412
s-
1412
962
5-
5-
0
3-
450
1412
56 J&
63
1547
3-
cu
63
1547
3-
CJ
63
1547
3-
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lo
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585
577 1547
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JG JG
JG
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P*P
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JG
P*P
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63
2011
3-
962
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1049
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PIP
2011
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2511
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63
2082
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cu
63
2062
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b70
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130)
(20)
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(30)
(90)
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-.120
.OlO
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+0.57 to.62 +0.59
(t7 (+5
to.29
CO.17
63
2208
9-
77P115
l
AVERAGE
l
f1OOJ
-0.6
(+16.-7
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.ooo
(20)
(20)
,000
(30)
150)
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140)
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2011
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130)
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535
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PIP
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63
2677
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63
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63
193
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638
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638
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63
63
651
651
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77EKO3 77PA15 AVERIGE
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J 77PAl5 I AVERAGE
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(+13*-11)
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110)
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A*Jf A-N
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110)
(101
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110)
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110) 110)
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EL v-2 2J
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s-3
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78WJO2
f 3J f 2J (17) I
77PAl5 AVERAGE
,-1
76tlEl7 J 7bMUO2 8 AVERAGE
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3J 31 3J
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(
(+2 I+2
4) r-l
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.120 .180
(201 (20)
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fi
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(40) 130)
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63
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78Jlil7 7!3JNJO2 AVERAGE
( ( (
7twJE17 7snuo2 AVERAGE
(
t
77P415 AVERAGE
( 8) I+0
t
77PA15
to.23
9-
458
77PAl5
1
77P1115
ArP P*P
ZY
ZY
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l l
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se1
l
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l
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1327
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*
to.28 Gil
l
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l
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3-
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I
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77EK03 77PAI5 AVERAGE
(201
P
7-
63
-.020
PIP
JO JG
1661
63
.lSO
PIP
63
CJ
120)
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CJ
CU
.lCO
P
JG JG
CJ
REFERENCE
3J .-2(r)
5) 2) 2)
* * *
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
K. S. KRANE
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 G A s 149); 18, 137 (A > 150) See page 34 for Explanation
INITII\L NUCLIOE
LEVEL EIKEVI
FINAL LEVEL EIKEV)
2J
25
GAMNARAf FIKEVI
T ECCHNIQUE
44
42
.460
(20)
ZN
63
1064
7-
193
5-
871
JG
A*N
ZY
63
1064
I-
651
5-
413
JG
ArN
ZN
63
1207
7-
651
5-
556
JG
AeN
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63
1207
I-
193
5-
1014
JG JG
AvN 4-N
.350 ,400
(20) (20)
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63
1285
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63
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3-
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63
1664
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0
0 193
3-
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797
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63
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63
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63
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2827
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DELTA
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to.51
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79NUOA
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(20)
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l
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*
-0.42 -0.43
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5J 4J
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114)
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t
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399
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to.40 +a.44
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65
65
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I 31 I 21 (17)
-0.7 -0.73
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I
627
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A*N
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,004
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to.24
(
51
78KDll
Vol
7.5, No. 1. January
3-
1354
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57
110) (19)
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Atomic
Data and Nuclear
Data Tables,
*
l
7OKOll 78K311 AVERLGE
l *
19.30
58
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 G A c 149); 18, 137 (A > 150) See page 34 for Explanation
IN1
NUCLfDf
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65
rIAL LEVEL EIKEVJ 2J
1577
3-
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65
1577
3-
ZY
65
1580
7-
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65
15lJ8
7-
FINAL LEVEL C(KEVJ
54
0 769 Q
GANNARAV E(KfVJ
25
l5-
1522
TfCHNIPUE
JG
A2
A4
PIN AtN
.Q92 -.073
(581
JG
(34)
1577
JG
P-N
-.Q64
5-
8i9
JG
AsN
-.62Q
5-
158ll
JG JG
PIN A*N
.Q96 ,200
(12)
-0003
DELTA
(15)
REFERENCE
41.7 -2.5 -2.5 t1.2
(+OO.-13) I 3J I 3J (+12r-7
(30)
.09Q
(40)
-0.23
I 3J
138) (10)
.048 -.OOS
(50) (12)
to.29
I (
to.31 l 0.31
I
74EZOi 78KOll AVERA&E 74EZQl 7810
4J LJ
74EZOl
I 2J
AVERAGf
il
76K311
ZY
65
1958
7,
1369
5t
5.58
JG
-.093
(ZQJ
.OiO
(20)
to.11
I
1)
77LOO3
ZN
65
1956
74
1066
9t
892
JG
-.OlQ
(10)
-.CQO
(60)
-0.27
I
1)
77LOO3
ZN
65
2139
lQb6
9t
.SOQ
(10)
.030
.570
(101
.050
110) (10)
to.67 l 0.04 to.70
( 5J IlQJ t (0
77LOO3 74NL02 AVERAGE
tit
1072 JJE
ZY
65
ZY
67
105
3-
ZN
67
394
3-
ZY
67
394
3-
ZN
67
394
3-
0
ZN
67
815
T-
O
ZN
ZN
ZN
ZN
ZY
67 67
b7
67
67
3473
15t
886
5-
888
0 185 93
394
5-
1364
5-
1364
5-
1364
5-
13,
2055
386
A.N
.810
130)
.Q70
130)
t0.e
(
4J
78NEQ2
5-
ia5
JG
AVN
-.OCO
(30)
,020
(30)
to.01
I
CJ
78DUO4
t
3-
209
JG
AVN
.120
(30)
,040
t4OJ
-0.10
f 6)
78OUO4
l-
301
JG
A*N
(30)
,010
(30)
to.20
(
81
78OUO4
t t
S-
394
JG
AvN
,050
(30)
,020
130)
-0.17
(
OJ
76DLJO4
t
5-
815
JG JG
AeN AtN
,290 .250
(30) (30)
.14Q
(40) IJOJ
I I
01 7J .-2
78ouo4 78LOO6 AVERAGE
*
,090
t5.0 46.0 t4.5
5-
3-
185
3-
494
8dll
476
970
1179
56 JG JG JG
AsN AIN A-N AWN
-.02Q
-.330 -.35Q .370 .36Q
1501
1101 (30)
IlQl
,020 -.OlO -.OSO -.020
JG JG
AvN ArN
-.03Q ,000
(60) ISOI
,060 ,020
JG JG
AsN AvN
-.560
t7QJ 410)
-.QlO -.OlO
JG J6
A-N AvN
-.510
(60)
-.530
(20)
-.53Q
.250
(40)
-.a80
.ObO -.120
I 6J ( t
3J 2J
to.90
t I
9J 6J
78OUOC 78LD06 AVERAGE 78OUO4 78LOO6 AVERAGE
-0.3 -0.37 -0.36
I t (
1) 5) 4J
78OUO4 78L3Q6 AVERAGE
-0.21 -0.31 -0.30
I I (
4J 6J 5J
AVERAGE
-0.2 -0.28 -0.27
I ( (
2J 7) 7J
AVERAGE
(401
t2.Q
f
5)
78DIO4
I 81 (30) ( SJ
7mJo4 78LOO6
I 3J
(40)
ClQJ (1001 (60)
(50) (10)
(80) (30)
1364
5-
0
S-
1364
JG
AIN
ZN
67
1543
3-
0
5-
1543
JG JG
AIN AeN
-.140 -.210
f5QJ (20)
.OOO .OOO
1601 (20)
+0.20 to.53 to.22
67
1603
7,
ArN ArN
-.300 -.150
(401 (701
.070
150)
-.iso
(2001
io.07 0.0 to.06
(2QJ t5QJ
.OQO -.120
(30)
ZY
ZY
ZN
67
67
1603
74
lb57
I-
604
9t
BB3
5-
624
999
769
J6 JG
JG JG
JG 56
A-N A.N
ArN AeN
.180 .300
-.210 .270
(60) (30)
-.050 ,020
(70)
ClOQJ (40)
b7
1732
ii*
604
ZY
67
i6QO
7-
ZN
b7
1800
7-
ZY
67
1808
9+
9t
86% 0 604
1128
56 J6 JG
ArN AirN AsN
5-
912
JG
AsN
5-
1800
JG
AWN
9+
1203
JG J&
AvN AsN
.560 .58Q .290
.ii(l
-.390 -.240
(20) 120) (50)
Clft)
140) (60)
.04Q .120 .Q50
-.Q30
-.ieo -.500
l
l l
7muo4
76L306
AVERAGf 77L303 78OUO4 AVERAGE
21 .-9
-0.28 -0.45 -0.29
(
31
I
3J
77LOO3 7mJo4 AVfRAGE
0.0
I I I
2J LJ 2J
AVERAGE
l
77L303 77NE04 7AOUQC *VERA&E
l
to.64
(15) I 1J ( 2J ( 7J
+o.i
t 1J
7eLoe6
-0.30
t
76LOO6
(44
to.00 to.5
40.6
+3 4
I (+2
76OUOC 78~006
81
.-I
(42
t11 l
J
(10)
to.01
(20) IiQOl
(50) (200)
l
;
I
(20)
(30)
l
*
76OUO4 78L306
t-10)
cte
0.00
ZN
J
-0.14
67
5+
It3
-0.17
(40) (20)
ZN
980
l
JG
5-
394
l
1419
3-
0
*
J
31
.-1
J
77LJQ3 7oouo4 AVERAGE
l l
l l
*
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 G A s 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIOE
INIlIAL LEVEL ECKEVJ
FINAL LEVEL E(KEVJ
ZJ
2J
6Altlf4RAY EWEVJ
A2
TECHNIQUE
A4
REFERENCE
DELTA
ZN
67
1675
5-
394
3-
1461
56 JG
-.780 -.840
(150) (8OJ
-.lOO .12a
(200) f108J
-0.36 -0.8 -0.45
(10) I 2) I 91
7.5ouo4 7BcOO6 AVERAGE
ZN
67
Lb75
5-
015
I-
1060
JG JG
.ObO -.ocs
(50) 130)
-.130 -.020
180) (30)
-0.2 l 0.02 -0.05
I 1J c 7J I bJ
76ouo4 74096 AVERAGE
ZV
b7
2137
9-
015
7-
1322
JG
-.900
12001
.150
(150)
-0.6 -0.75
I 2J ft18,-13)
78DUO4 AVERAGE
* *
ZN
67
2451
719
JG
(20)
,090
(20)
40.5 +0.55
( I
1) 6)
77NiO4 AVERAGE
*
120)
-0.08
(6)
-0.059 -0.06 -0.065
I f I (
1J 6) 21 51
77AL35 77PAO8 AVERAGE
* * * *
G4
67
359
134
5-
t4
67
828
3-
G4
67
826
3-
GP
67
911
5-
G4
67
911
5-
G4
67
1202
7-
GA
67
1413
G4
67
1413
GP
b7
1554
1732
it+
0
lb7
0
359
JG JG JG
-.330 -.065 -.2511
IlOJ (2)
(10)
-.OlO .005 .OOb
(10)
792001
l-
661
JG JG
-.*20 -.040
(20) 120)
-.0&O .003
(30) (151
-0.36 +O.Ob -0.29
t 9J 120) I 81
77A~35 77PAOI AVERAGE
3-
826
JG JG
.oao -.002
(20) (3)
-.OlO -.ooi
(40) (31
-8.14 -0.19 -0.lb
I CJ I 6) c 3J
77AL35 77PAOd AVERAGE
5-
-.003
(23)
to.3
552
JG
.061
(21)
3-
911
JG J6
.150 .021
(10) (1)
.020 ,007
(20) (31
CO.32 to.34 to.33
I 2) I 21 I 11
77AL35 77PAOd AVERIGE
359
5-
643
J6 JG JG
-.440 -.llO -.396
120) (101 130)
.220 .016 .156
(20) t.31 (30)
-3.08 -3.2 t3.1 -3.13
fl6l t EJ 1 3J (12)
77AL35 77PAS8 792001 AVERAGE
7-
911
5-
502
JG JG
-.450 -.166
130) IlSJ
-.050 ,019
(301 (151
-0.11 -0.25 -0.11
I ( I
11 6) 1J
7lAL35 77PAOS AVERAGE
7-
359
5-
JG J6
-.blO -.192
(20) (71
,160 -.009
(20) (91
-2.0 -1.46 -1.68
( I I
1) 9J 7)
77AL35 77PAOS AVERAGE
-0.65 -0.24 -0.64
I 31 (t16,-14) ( 3J
77AL35 77PAOS AVERAGE
+0.42 +O.b9 l 0.43
I 4J (+29.-lb1 t 4J
77AL35 77PASI AVERAGE 77PAOl
5-
G4
67
1554
5-
G4
b7
lb40
3-
G4
67
1640
GA
67
lb40
359
3-
.‘a50
0
359
5-
0
1054
1195
JG J6
-.190 .007
(30) (61
.310 .024
(30) l6l
-.020
130)
-.013
(7)
tt10*-5
I
3-
1554
JG JG
820
3-
811
JG
-1.0
(
.3-
359
5-
1280
56
-0.6
~*OO.-ll~
3-
lb7
l-
1472
J6 JG
-O.lb -0.30 -0.17
tt15.-9 (too.-5oJ
Gb
67
1809
3-
911
5-
GA
67
1809
3-
820
3-
G4
67
1809
3-
359
5-
1450
GA
67
1809
3-
0
3-
lflO9
JG
G4
67
2041
5-
0
3-
2041
JO
G4
67
2124
5-
826
3-
1296
J6
t4
67
2124
5-
359
5-
1765
JG
-.460 .049
(201 191
.030 ,006
.OlO .004
(301 (7)
(201 (10)
I (
71
77PAOO
2J J 2)
.005
(30)
.ooo
(31)
-0.09
961
JG
-.SbO
(30)
,100
I501
to.0
1+27.-a
JG
-.828
(40)
.020
(40)
-0.63
(+oo.-85)
77PAOS
.005
(20)
.OlO
(20)
-0.26
(26)
77P406
.027
OJ
.OlO
(91
-0.74
-.021
(21)
.022
(24)
to.8
(+00,-b
J
77PADil
.Oll
(14)
(20)
-1.0
itoo1-7
I
77PAOI
Atomic
Data and Nuclear
*
77PAO8 I
(30)
Data Tables..
* l
77AL35 77PAOd AVERAGE
JG
59
* * * ”
77PAO6
898
-.030
l
77PAOS
77PAOS
Vol. 25. No. 1, January
1980
60
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-4 Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 c A s 149); 18, 137 (A > 150) See page 34 for Explanation
NIJCLIOE
INITIAL LE UEL E(KEVJ 2J
FINAL LEVEL E(KEVJ
GAHNARAY E (KEVJ
2J
TcCHNIPUE
A2
A4
GA
67
2142
3-
167
l-
1975
JGi
P-N
-.065
(43)
GA
67
2176
7-
359
5-
1617
JG
PIN
-.G52
(24)
CA
67
2190
9-
i413
7-
Jtr
PIN
-.253
(30)
GA
67
2264
9-
1202
7-
JG JO
PIN AwP
-.176 -.595
(30) (20)
.021
GA
67
2bS2
GA
67
2862
GA
67
3191
GA
67
3570
7-
(48)
,016
(26)
0.0
(30)
,190
(34) 120)
(lot
,040
(30)
to.9
(+00.-4 1)
77PAO6
-0.06
4 3J
77PA01)
(10)
(101
-6.5 -2.4 -2.4 -3.7
.I20
(40)
-2.54
(20)
-.030
(
( ( (
AtP
ii-
1519
9-
1343
JG
ASP
11+
2074
94
IL17
JU
ArP
-.970
(20)
,340
(20)
-1.60
I
7J
15+
3032
JG JG
ArP
-.690 -.598
(20) (13)
.020 .029
(20) (9)
-0.24 -0.233 -0.235
(
4)
(24)
792001
(21)
AVERAGE
(401
-0.23 -0.14
(11) t 5J
76SA39 AVERAGE
t s
GA
69
1106
5-
GA
69
L923
7-
1923
7-
13t
0
872
3-
872
GM
3-
234
GM
7-
567
GU
1336
574
546
5-
1350
GH
C,PN 1052
672
1336
514
.070 -.510
.007
-.a30
.208
,150
l ooo
(23)
-0.06 -0.09
( (
7) 6J
76SA39 AUERAGi
t 1)
(23)
,070
(1201
-0.01 -0.02
( (
7J 5)
76SA39 AVERAGC
*
-0.13 -0.19
t 3J ( 5)
76SA39
*
AVERAGE
*
(15)
.053
87
i-
146
JG
PIN
GE
69
233
3-
0
5-
233
JG
PIN
-.026
(4)
GE
69
374
3-
i-
287
JG
PIN
-.Q29
(4)
(83) (201
to.19
(
7)
78PAl5
-.OlO
(101
+0.27 to.28
( (
4) 4J
78PA15 AVERAGE
* *
110)
SO.li
40.11
( 1) ( it
78PAi5 AVERAGE
l
-0.17
t
91
(
31 v-2
,000
Gi
69
374
3-
0
5-
374
JG
PsN
.ooo
(101
,000
(10)
GE
69
862
7-
0
5-
662
JO
PIN
.300
(201
.a40
(2aj
GE
69
il69
3-
GE
69
lib0
3-
GE
69
1196
5-
GE
69
1307
3-
GE
69
1307
GE
69
1351
GE
69
1415
5-
GE
69
1415
s-
374
927
JG
PsN
i-
1073
J6
PvN
-.040 .020
-0.6
(20)
to.31
(70)
.150
170)
-0.7
(301
to.3
A*N
I-
1220
JG
PIN
5-
1307
JG
PIN
398
9+
953
JG JG JG
PIN 0,PN O.PN
233
3-
ii82
JG
PvN
5-
1415
JG
P.N
-.050
(20,
JG
PsN
-.240
(20)
JG
P.N
-.170
(70)
O
0
GE
69
1466
9+
398
9+
GE
69
1479
7-
933
5-
GE
69
1613
7-
0
5-
GE
69
1995
5-
233
3-
GE
69
2019
13+
1351
it+
1068 546
GE
69
3076
15+
1407
1407
13+
13*
78PA15
1)
7QPAl5
.460 .390 .480
(301 (10) (341
.030 ,090 .027
(401 (10) (41)
.I10
(30)
,020
(50)
+0.55 +0.65 to.79 40.73 to.49
i 3s (12) (t10,-18J ( 6) (101
. a40
(30~
-0.65
(10)
7BPAi5
130)
-1.43
1101
7dPAi5
.ooo
(60)
eo.05
(
5)
78PAl5
(70)
-0.05
(
3J
78PAi5
(1OOJ
-0.7
(20) I301
l 0.51
-.090
JG
AeN
-.bbO
(do)
,150
66.3
JG JG
0 *PM O.PN
OsPN
GE
69
4267
19-
3749
if-
519
JG
OIPN
GE
69
4595
Zl-
4.267
19-
327
JG
OtPN
79ALO8
iJ
762
JG
I
(
(601
1669
r-4
,250 .450
120) (8OJ
.060 -.020
tt10,-5
r0.45
.020 .467 -.450
.040 -.291
(50) 134)
-.120 .035
(401 (42)
(70)
-.oto
(401
(70)
-.
(14)
-.ooo
020
40.10 40.62 40.62 -0.13 -0.150
76PA15 79PAi3 792002 AVERAGE 78PA15
J
(10) ( 5) (331 (+6 (+3 (+3 ( (i4)
.-5 .-I s-4 2J
* *
78PAi5
(
-.260
AvN O-PM
78PAl5
0.0
PIN
J6 JG
t
(40)
JG
1348
76PAL5 AVERAGE
6)
1*5
to.521 is*
I
,000
(20)
-.020
(
l
711PA15
(20)
.020 -.ozo
.070
1613
(+24.-3
(50)
JG
87
-.710
(+3
,000
822
-.oia
t2.4
l 2.0
(2OJ
(30)
3-
3lit
3-
l
,000
(10)
3-
a7
7tlAL32
(141
233
233
79AL32
.OOl
69
87
-.042
78AL32
(91
GE
2755
77PAa& 7 dAL32 AVERAGE 7aAL32
2J 2J 11
JG
3-
69
77PAOB
1132
672
GL
J
9-
69
69
1062
,024
REFERENCE
1519
GA
GA
7711
DELTA
79ALOd 79PAl3
l
792302
l l
AVERAGE J I I
* * * *
74F312 792D02 AVERA6E 792002 AVERAGE
(90)
to.17
I
2J
792002
(21)
-0.02
(
3)
792002
* l
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 c A 4 149); 18, 137 (A > 150) See page 34 for Explanation
INITIAL NUCLIDE
;4
GA
GP
G4
69
LEVEL ElKEV)
71
71
71
It
71
FINAL LEVEL ElKEV)
ZJ
487
5-
512
3-
512
D
965
0
5-
7-
1107
ZJ 3-
l-
390
3-
GAllMARAY EIKEY)
0
965
3-
3-
5-
487
122
512
965
143
TECHNIPUE
GM GM GG GG
A4
A2
386 620 366 620
.023 -.I99 .029 -.192
(6) 171 17)
110)
-.lJ39 .007 .020 .020
GN GM GM
366 386 596
.031 .004 -.113
1141 1201 145)
,165 -.003
GN GM GG GG
386
-.042 -.003 ,026
113) (13) 1121
-.012
-.01a
1141
GM GN
596 366 596
386
-.112 -.079
386
GM GM GN
366 366 965
GN GG
366 366
.039
.04?
132) 1121
111) 118)
.015
,006 .ooe ,012
-.107 ,016
-.llb
-.172
1401
-.014 -.030
-.107
lb)
-.043
-.108
17)
DELTA
(10) (101 112) 1161
(25) 1241
159) 1251 120) 116) 1231
145) 1151
119) 127) 150)
(IOI
REFERENCE
+0.12 -0.04 +0.06 -0.024 -0.004
( 5) 1 8) 1 31 113)
1111
-0.2 to.23 -0.5 -0.01
1+24r-3 122) 1+13r-5 1*16,-131
-0.08 -0.20 -0.46 -0.32 -0.25
~*12*-101
to.6 l O.58 +0.58
1*9 1*9 lt9
;.I
71
71
1107
I-
2247
7~
ce7
5-
1494
94
620
753
,024
110)
1-3 r-6 ,-8
76SA39
7bSA39 78KROb 78KXOb AVERAGE ) I 1
1 4) 1 6) 1 6) 129)
+0.01 -0.11 146 It6 148
76SA39 7BKR06 7OKR06 AVERAGE
76SA39
76KqOb AVERAGE 76SA39 78KR06 76KRO6 AVERAGE
r-3
)
r-b
I
v-b
1
76SA39 78K~O6 AVERAGE
7bSA39
GM GM
386 366
.093 ,043
1291 19)
-.053 -.003
146) 112)
0.00 -0.085 -0.078
1 5) (15) 114)
78KRO6 AVERAGE
.150
120)
-.020
130)
-0.23 -0.20
1 5) 1 3)
77Kii6 AVERACE
-.050
1401
-0.5
l+b
170)
-1.96
1+40.-301
GE
71
590
I+
196
9,
391
JG
A.N
GE
71
1027
5-
500
3-
527
JG
AWN
-.650
140)
GE
71
1096
7-
175
5-
921
JD
AvN
-.b60
160)
GE
71
1205
5t
831
3,
374
JG JG
P.N A.N
-.063
143)
,170 -.006
4s
75
265
3-
0
3-
265
GG
136
-.033
12)
.007
AS
75
260
5-
0
3-
260
GG
121
-.414
181
MB
91
2330
ii*
0
9,
2330
56
P.N
-.142
136)
MB
91
2414
ll-
1965
13-
429
J6
MB
91
2660
15-
2034
I?-
626
JG JG
P.N
.066
LI,lN A.2N
-.160 -.220
14b) 1501 140)
(521
74111132 77KEl6 AVERAGE
16)
-0.042
1141
7w311
t
-.OlO
113)
-0.426
121)
78VOll
t
,065
134)
-10
1+27,-3
1
77SC26
144)
-0.21
1 7)
77SCZB
.030
160)
.ObO
140)
-0.02 -0.045 -0.03
1 5) (45) 1 3)
768914 79FI06 AVERAGE
-.020
0
5,
1363
JG
MT
40.48
MO
93
1520
7+
0
5+
1520
JG
HT
t1.3
f:.
93
1516
0
9t
1516
JG
61
77KEl6
1141 1 9)
7+
111)
* *
77~E16
111)
1363
-.086
I
0.00 0.00
93
Ss2NZP
e-4
0.00
no
ii+
I
1 0) 1 4)
.o.os
r1.3 to.72 to.73
I
116) 1 5)
-0.002
GA
765639 76SA39 78Ki06 78K106 AVERAGE
.155
Atomic
1171
Data and Nuclear
-16.6
lt6
r-6 1
6)
1+29.-211
Data Tables,
I
t
77BEl9 77BEl9
786R25
Vol. 25, No. 1, January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A c 57); 19, 363 (59 s A G 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIOk no
91
no
95
NO
95
INITIAL LEVtL EIKEVI 766
?+
821 1074
TC
95
627
TC
95
957
FINAL LEVEL E(KEVJ
ZJ
GAHNPRAY E(KEVI
25
0
5t
34
0
5t
7+
0
5,
5+
336
114
T3
95
1549
15*
TC
95
.25&B
214
r:
95
4294
27+
Nd
97
1146
7t
n0
97
1750
5*
Na
97
ia52
5+
0
682
766
TECHNIQUE
JO
HT
JG JG
RF UT
JG
(40)
to.17
(17)
.I00
(20)
-2.1 -2.1
( I
(701
t1.2
(25)
(20)
-0.02 -0.04
I I
(1101
to.09
(17)
78U405
JG
4r2N
363
JG
4.2N
-.235
1101
3919
294
375
J6
4r2N
-ru50
(90)
9t
1148
GN
114a
7t
602
GN
1148
74
703
GN
(19)
t0.11 to.11
( I
6) 6)
76KRO3 4VERIGL
:I
1146
,504
120)
+0.19
to.19
f I
a) a)
7.3KR03 AVERPGE
** **
GN
216 PIN 325 325 PeN
5*
325
5*
460
GN GN JG
It
569 c”: JG
rc
97
856
74
rc
97
856
7t
r3
97
970
1127
7+
TC
97
rc
99
141
74
rc
99
921
3,
RI
103
650
It
216 0 216
lit
,360 -.a40 .ooo .137 .a70
.250 .299
216 216 PIN
.024
(15)
-0.037
(29)
,002
(151
-0.042 -0.042
(30) (308
to.31
I
5)
79XEOl
(20)
-.OlO -.a60
150)
t2.2
(
3)
770i33
-.OlO
1201
-0.6
I
5)
79XEOl
(201 (17) 160:
-.020 -.009 .030
1110:
(LO: (71
)
79XEOl
*
AVERlGE
l
I
2)
79XEOl
I
7)
(CO)
-.030
-3.9 -2.2 -3.2
I
5)
718E33 79XiOl AVERLGE
141
GH
740
-.07a
(5)
St
7kO
GN
131
9t
557
BNN
13)
(311
-.OlO .020
-.DlO
.004
Atomic
t a1
*
79XEOl
to.3
190)
62
.-1
t
l
(20) (40)
-.500
-.153
it6
l
77BE33 77KRO3
(20)
P.N
53
(14) (14) (tZ(tr-671 IlO)
l
778E33 77KRO3 79XEOl AVERAGE
.030
J6
.Qb4
to.075 to.iza to.67 to.102
I
-.OlO
-.090
9t
I
s-4 9:
(20)
PIN
0
141
120)
JU
1127
(20)
(10)
II01 lt43t'311
-2.3
056
-.060
,000
.oia
-0.01 -0.56 to.5 -0.12
iSOl
9+
216 PtN
120) 127)
, 070
(40,
GN JG
70KPo3 AVER4GE
(30)
-.I10
755
120)
78KR03
(208
PIN
.a10
126)
(11)
JG
9t
93
-.ae.a
.OOO
fill
640
0
iai
,200 -.a56
7+
7,
:
-.015
109
765
7au405 AVER4GE
(13)
7t
97
t
.410
PIN
r:
Tan405
l
1146
JG
463
*
78K903
216
l-
31 2)
7aft405 AVERICE
1+23*-15l
9+
97
7an405
1: 1:
to.50
114s
31
l
(19)
1750
5ao
,260
*
-.015
GN
97
.I00 -.a30
l
(131
GN
T:
(70)
l
.410
355
JCII
.520
602
5,
216
*
.ooa
1750
54
77YIlO AVERLGE
(20)
3t
705
5) 5:
-.400
2106
97
t I
4.2N
97
1:
-0.74 -0.74
JG
6b7
216
t
957
N3
54
77S:ZO
9t
256
325
I)
(40)
5t
97
I
-.a50
19+
l
I I
A,ZN
la52
TC
I
770El9 77S:ZO 77YllO AVERLGE
1-9 5) 4:
0.07
2184
0
(ii?) (+B
JG
3+
ft
-0.14 l 0.040 to.042
291
2106
216
(150)
7t
97
97
REFERENCE
l o.ii .340
1st
0
DELTA
UT
NB
TC
44
T
621 1074
A2
(140)
-0.7
(6)
to.076
(14)
76PRlb
t
14:
-13
I
76PRll
t
135)
-0.175
(758
77R402
t
Deta end Nuclear
tt4
DataTables.
r-5
21
I
79x501
Vol. 25, No. 1,Janoary
1960
K. S. KRANE
63
~2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplemen;to ADNDT 22, 269 (A-< 57); 19, 363 (59 s A s 149); 18, 137 (A > 150) See page 34 for Explanation
FINAL LEVEL EIKEV)
INIlIGL NUCLIDi Ri RI
105 105
LEVEL E(KEVl
149 392
2J 9* 3-
0
130
2J 7t
I-
GAWNARAY E(KEVB 149
263
*L(
105
639
7t
149
9t
489
44
105
706
it
469
3t
316
TECHNIQUE GN
GG GG GG GG GN GN
105
RI
105
969 1345
393 393 393 413 393 413
.122
.3Gb
114)
-.348 .370 -.293
(16) (6) (9)
GG GG
469
469
-.020 -.030
GG
469 469
-.OIb -.Olb
5+
469
3,
500
GN
469
3+
469
3t
075
GG GN
469 469
(19)
(20) (30)
149
.220
.G67
DELTA
A4
.420 .420
GN
GN
Ri
575
A2
(22)
(IO) 120) (4)
(3) 120)
-.ooo
(14)
-.096
(18)
-.030
.003 .012 ,021
.JI8 .085 -.030
.OOl -.006
-.055 .009 .009
105
PI3 105
PD
PO
PD
PO
105
105
105
105
306
319
442
b51 651 673
7+
0
5,
0
0
r+
3+ 3t 1,
319
280
260
5t
5+
5+
5t
3t
3t
306
319
442
331
370
393
GN JG JG
183 Ce3N HT
JG JG
C,3N MT
JG JGb
GN
GN
GN
C13N C.3N
319
280
200
-.200 -.048
.208
-.610
-.104 -.09-S .149
79SA23 AVERAGE
*
76GUO9
**
765207
l *
to.34 co.34
( (
II
-0.24 -0.24
(
4)
( 61
-0.18
2) 41
77KR09
l
-0.27 -0.16 -0.14 -0.16
( ( l 1 (
II
77KS09 79SA23 79sa23 AVERAGi
* * * *
(361
to.25
(
2)
79SA23
(301
-0.19
(51 (6)
-0.16 -0.20 -0.20 -0.20
(33)
8171 (191
(101 (121
ttc (*7
18
II 1)
,-3 ,-8 ( 2) ( 11
1 I
( 11
(30)
l 0.7
(22) (2.51
l 1.3
(t6
t1.3
I
31 v-4 51 e-3
76GU09 765:07 77KRO9 79SL23 AVERAGE 7 95423
)
77KR09 79SA23 AVERAGE 778132 77RI05 77YIlO
(331
,043
(71)
-0.39
(10)
,015
(10)
l 0.02 +0.06
( 1)
-0.07
110)
to.11 l 0.103
(
8)
77RIO5 77iIIlO AVERAGE
* * *
-0.33 -0.20 -0.23
113) ( 71 ( 6)
77RI05 77RL05 AVERAGE
*
-0.091
(11)
-0.084
(
7)
770132 AViRAGE
* *
-0.07 -0.06
I 6) ( 4)
770132 AVERAGE
i
l 0.10 to.08
( 61
77BA32 AVERAGE
t *
-0.04
(
41
(35)
(21)
(ill (lb) (131
,010
.031
-.OlO -.030
-.014
(24)
(10) (451
(201
( II
( 51
782
9+
442
7+
340
JG
C13N
PO 105
902
9*
442
7,
460
JG
C.3N
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lI50)
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(
9)
77RI05
PO
105
902
9*
306
7+
596
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C,3N
-.OIO
(271
.oto
(401
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(
3)
77RtOS
PD
105
782
9t
230
JG
C.3N
-.33O
(150)
,210
(190)
-0.05
(
91
77RI05
PO
105
I271
ii+
9t
469
JG
Cs3N
-.460
(50)
.040
(60)
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I
6)
77RIO5
PD
105
1671
13,
1271
11t
coo
JG
Ce3N
-.380
(40)
(50)
-0.08
1 4)
77RI05
PO
105
1763
15-
970
15-
793
JGG
C.3N
t1.0
( 51
77RIO5
PO 105
1962
17-
970
15-
991
JG
C.3N
7711105
PO
105
2281
17-
970
15-
1311
JG
C.3N
PO
105
2345
19-
1742
19-
603
JG
C13N
PO
105
2704
19-
I742
19-
962
JG
PO
105
2776
21-
1742
t9-
1034
JG
255
JG
C13N
JG
C13N
1012
1lC
7.32
-.290
(50)
(1IOl
-.070
-.050
(801
77RIOS
(33)
to.46
(10)
(700)
-.400
(800)
t1.3
(
.416
(34)
-.a40
(50)
-0.01
(601
77RIOS
C,3N
.*20
(40)
-.o.so
(50)
to.2
(
7711105
C13N
.570
(60)
,140
(80)
to.62
(161
77RIO5
.436 1.400
(25)
PO 105
PGO7
19,
2552
17,
PO
105
2901
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1742
19-
PO
105
3119
21*
2.907
19+
313
JG
C.3N
PO 105
3154
23-
2700
23-
453
JG
C.3N
PO 105
3469
23+
3119
21,
349
JG
C,3N
-.024
(32)
PO 105
3526
25+
3295
23,
233
JG
C13N
-.690
(100)
PO 105
3695
25-
2700
23-
994
JG
C.3N
1159
l 030
(50)
1 I
105
PO
-.I09
.650 -.050 ,420
.BOO
l
( (*4 (t13,-6 ( 4,
t1.3 80
RiFERENCE
.006
7)
Cl
77RI05
(401
to.09
( II
77RI05
(801
-.030
(12OI
Cl.3
( 9)
77Rt05
(31)
-.OlO
(40)
to.12
(
7711105
(501
-.130
(27)
13101
.040
3)
(801
0.0
( 6)
77RI05
.OIO
(501
to.14
t
21
77RIOS
.140
1130)
-0.27
(
71
7711105
1400)
t1.5
(101
-.200
77RL05
t t
t
l
I
l
K. S. KRANE
-.------
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
-
Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 S A c 149); 18, 137 (A > 150) See page 34 for Explanation
rABLE
N>CLICE
INIlIAL LEVEL cfKEVJ
III.
FINAL LEVEL EfKLVJ
2J
A;
105
53
9+
A;
105
31t7
3-
A;
105
669
A;
105
917
105
1024
4G
105
1666
13,
669
4;
105
lb61
15,
917
PG
105
173c
1st
26
l-
347
JG
Ar2N
9t
616
JG JG
ALIZN 0,PZN
53
4;
7-
7t
0
669
lit
k33
917
TXCHNIPUE
RAY EfKEV)
2J
25
il+
13,
GAMtfA-
249
5-
E
JG JG JG
A2
Av2N At2N O,P2N
.310 .241
l 0.02
ft9
(50)
.230
f7OJ
t1.26
ft25,-59)
79KAO5
134
764
JG JG JG
A, 2N A.2N OvP2N
.259 .19u
150) (30)
.OlO
(37)
f1OOJ (40) (501
to.36 l .29
.lk9
to.29
f f f f
78liIOl 79UA 05 79PDl3 AVERAGE
ft39.-311
817
JG JG JG
A.2N A.2N OtP2N
-.715 -.920
-1.112
-.074
JG JG
A.LN As2N
JG JG JG
17+
15-
15-
290
98
126
.lOO
(130) f6OJ
-2.05 -1.04
,260
(140)
-1.0
,170
(15)
-1.6
f 2J f 1)
78HfOl 79K405 79PO13 AVERAGE
f
4)
79PO13
f7OJ
to.09
IlO)
.190 ,050 .029
f2OOJ (70)
fb5J
to.131 f 6) to.11 ft6 .-5 to.09 f 5) to. 137 f 6J
-.765 -.770
(70) (30)
,280 .440
(301 (40)
-1.5 -2.05 -1.86
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-.155 -.230
(20)
,023 -.020
(30) (201
to.077 0.00 -0.12 to.063
JG JG 56
Ar2N A.2N OtPtN
-.095 -.090
(101
(801 (60)
to.103 to.08
2596
17-
2299
ll-
296
JG
0,PZN
A;
105
2151
19-
2596
i7-
155
JG JG
A. 2N 0,PZN
::
As2N 01P2N
449
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-.170 -.184
.23O .171
f5OJ
(10)
(90)
(101 IIOJ
(601
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.ooo ,017 -.090 -.005
(27)
ft4
ft3
fC3
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110) fl3J
to.04
f6OJ f68J
to.33
It1
to.04 l o.o4oft7
f ft6
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2775
ll-
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15-
305
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(ii01
At
105
2936
21-
2751
19-
185
JG JG
A.2N O.PZN
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f1OJ fllJ
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(10)
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(151
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f*4
-.146
ll-
233
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A.2N
-.200
1201
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(30)
to.01
ft3
‘Zl-
240
JG J6
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(10) (15)
(201
to.02 to. 05
f*3
105
3008
19-
A;
105
3176
23-
2936
AS
105
3511
25-
3176
27-
3511
A;
105
3928
4G
105
4362
29-
3928
23-
2s
27-
335
517
434
56 JG
A r2N OtP2N
J6 JG
A.2N OaP2N
JG
O.P2N
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-.105 .0&l
-.157
130) (141
-.030
.Oll) .lOO -.009
119) ICOJ
(160)
,068
f 54)
31
+o.oa
J
7 WI01 79K405 79?313 AVERAGE
J J
79KA05 79POl3 AVERAGE
.-9
1
7 9K405
t-2
1
79KAOS 79PO13 AVERAGE
w-2
J
79KAO5
r-1 11
J
79KA05 79PO13 AVERAGE
f
9J
9) 3)
79KA05 79013 AVERAGE
(10) f 9J r-6 f f
78HIOl 7 9KA05 79POl3 AVERLGE
79KA05 79PD13 AVERAGE
1J
ft5
7'3tfIOl 79u405 AVERAGE
J
f
f
40.19 CO.06 +0.07
.050
(351
.-3 1J r-9
f
0.00
J
78HLOl 79KA05 79POl3 AVERAGE
79P313
f
to.046 to.015 *0.077
J
5) 61
r-3 4)
f f
(19)
(110)
f 6J .-1 f f
105
AS
(11) s-5 f 5) flOI
-0.12 to.099
A;
2775
.-5
J
ft28.-361 ft23r-291
+0.29 -.040
79K405
51 31 41 2J
,017
105
21,
+0.25
1531
A;
19,
(20) f6OJ 193)
.OQO .090
.-cr4I
78HIOl 79KA05 79po13 AVERAGE
.690
A,2N A.2N O,PZN
2762
J
A.2N
JG JG JG
105
f15J r-2 f 4) r-12)
JG
341
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(41
997
13t
460
(18)
to.105 to.08 0.00 to.091fte.
I
Ii+
1st
2313
79KA05 79PDI3 AVERLGE
(340)
lb81
2S70
.-4 f 41 ,-3
J
ft2
-.
17t
17-
ft2
to.35 l 0.40
(310)
2022
2596
(10) f31J
40.43
,041
-.620
10s
105
,040
(25)
A. 2N
A;
4G
(101
JG
-.a94
Z(r96
79KAOS
590
OsP2N
t7-
8
(201
JG
2596
,-7
f65J
297
105
ft5
,061
15t
A;
76SVOC
to.10
-.030 .009
1681
2022
1
(50)
f2OJ (10) (141
-.073
17t
19*
r-7
,030
(401
-.llO -.165
1978
2313
REFERENCE
0.044fts -.120
105
105
DELTA
n/n
A;
A;
A4
2) 2)
f 4J
J
79KAQS 79P313 AVERAGE 79PDl3
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections,
December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 s A s 149); 18, 137 (A > 150) See page 34 for Explanation
INITIAL NJCLIOE
LEVEL EtKEVJ
FINAL LEVEL E(KEVJ
ZJ
GAMMARAY EJKEVJ
2J
co 105
260
5,
0
56
260
JG
0.3N
co
bOC
7+
0
54
604
JG
0,3N
105
A2
T~ECHNLPUE
.176 -.704
DELTA
A4
REFERENCE
(10)
.ooo
113)
+0.065
(a51
7clsrot
(291
.170
140)
-0.85
(451
78S101
(
78SlOI
105
771
94
131
7+
640
Jt!
0.3N
-.185
(I21
.139
(1'3)
-4.3
CD 105
632
9+
131
7,
701
Jb
0,3N
-.500
(50)
,130
480)
-1.95
(351
7esro1
1686
15t
705
JG
0.3h
-.120
140)
.050
(50)
-0.05
(
78STOl
0
5,
303
Jt
(87)
-0.05
93
7+
33
E
L/L
646
J6
NIv3N
co
co
105
PO
107
303
7t
A;
107
IZb
9+
AS
IO?
773
11+
126
9+
A;
107
991
13*
773
11+
218
JG
NIv3N
-.065 -.540
2391
17+
4.N
.354
1'39)
-.053
t*3
61
81
,-2
)
0.074l*I3*-15J .173
1181 (39J
At
107
1578
15t
991
134
5a7
JG
NIe3N
A6
107
1800
15,
991
13*
808
JG
NIr3N
A;
107
2412
Il-
2298
15-
I14
JG
NI,3N
-.145
112)
At
107
2543
19-
2412
17-
131
JG
NIs3N
-.126
(15)
A;
107
2734
21-
2543
19-
191
JG
NfrJN
A&
107
2748
Zl-
2543
19-
205
JG
NI+3N
.170
,056 -.051
7bKLOI
7bSVO4
123)
+0.33
4 81
79PDI3
149)
l 0.10
I
79PO13
51
(801
.220
(1IOJ
-3.0
I
9)
79P313
(70)
.060
(901
+0.27
f
8)
79PDl3
-.044
(14)
+0.05
(
2)
79POl3
-.028
(19)
+o.oa
(
2J
79PO13
l 0.06
t
7J
79POI3
to.09
(
2J
79PO13
-.OIO
114)
-.013
(17)
A;
107
3035
23-
2734
Zl-
301
JG
Nfr3N
l 0.12
I
7J
79PO13
A;
IO7
3OSb
23-
2740
Ll-
308
JS
NIv3N
-.045
121)
-.014
127)
40.12
I
2)
79PO13
AG
107
34bl
23+
3149
2i+
312
JG
NI,3N
-.208
(251
-.004
(321
l 0.17
I
41
79POI3
A;
IO7
3467
25-
3056
23-
410
JG
NI.3N
-.036
(51)
-.064
tb4)
l 0.13
I
3)
79POI3
A;
IO7
3683
25+
3461
23+
223
JG
NI.3N
-.087
(19)
-.008
128)
l 0.12
(
4J
79PO13
AG
107
397.3
27+
3683
25*
295
JG
NIs3N
to.06
I
41
79P313
a;
107
4376
29+
3978
NI,JN
co
107
505
7,
CD
107
co
107
609 3049
9t Zl-
0 205 2158
27+
397
JG
5+
506
JG
0.3N
-.430
7,
604
-.324
19-
JG
0.3N
891
JG
0,3N
.445
+o.oa
t
9)
79PO13
(26~
.003
136)
-0.27
I
7J
7flsro1
(19)
.I11
(25)
-2.3
I
3J
78SlOI
(34)
.070
(501
l 0.9
I
3)
7asro1
(19)
40.24
I
2J
778DOC
(35)
-0.30 -0.29
I t
41 3J
77tJ304 AVERAGE
-0.13
f
4J
778El9
A;
109
702
3-
311
3-
390
GM
311
AZ
109
863
5-
311
3-
551
GN
311
33 109
203
7+
0
5,
203
J6
Ill
IN
109
1026
114
0
9+
1026
JG
A.2N
IN
109
1420
13+
1026
11,
402
JG
4.2N
-.OIO
IN
109
1901
13+
1026
Ii+
874
JG
4.2N
.I90
(201
IN
109
2195
1st
1421
13+
767
JS
4.2N
.050
(20)
IN
109
2869
Il-
2532
15-
336
JU
4r2N
-.I13
(8)
IN
109
2958
19-
2869
Il-
JG
4.2N
-.206
49)
IN
109
3067
17-
2532
15-
JC
4.2N
-.040
(30)
89 535
-.020 .345
.215
65
-.030
(13)
40.40
IOI
-.017
(14)
to.07
(30)
+0.32
(+17.-7
-.040
(30)
+0.19
1+1 .-3
-.033
(14)
to.03
I
3J
79v413
(20)
.a.01
I
4)
79VAl3
(50)
to.14
i
7J
79113
.OlO -.060
Atomic
Data and Nuclear
r-4
I
79v413
(9)
.ooo
t+9
4 3)
Data Tables.
* *
79UAi3 )
79VAI3
J
79VAl3
Vol. 25. No. 1. Januaty
1980
K. S. KRANE
E2,
Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT-22, 269 (A < 57); 19, 363 (59 s A 4 149); 18, 137 (A > 150) See page 34 for Explanation
WUCLIOE
INIrIAL LEVEL EtKEV)
25
FINAL LEVEL EfKEY)
2J
GAllNARAV EIKEV)
TECHNIPUE
A2
A4
IN
109
3122
21-
2958
19-
164
56
At2n
-.I97
(91
IN
109
3202
Zl-
3092
19-
110
JG
A.2N
-.240
(20)
IN
109
3202
Zl-
2958
19-
244
JG
Ar2N
-.210
(20)
IN
109
3410
23-
3202
Zl-
208
JG
Av2N
-.217
(10)
-.032
IN
199
3462
23-
3122
21-
340
JC
A.2N
-.097
fill
IN
109
3800
25-
3410
23-
390
JO
A*2N
-.151
(12)
60
7,
NN E
1970 L/L
AS 111
130
9+
70
.060
-.017
DELTA
REFERENCE
(15)
to.01
I
5)
79Vhl3
,040
120)
-0.05
t
71
79VAl3
.OlO
(20)
(
4)
79VA13
0.00
(171
-0.02
(
7)
79VA13
-.018
191
to.05
(
3)
79Vll.3
-.027
120)
to.04
(
3)
79VAl3
(20)
-.030
(30)
-0.03 0.00
t 7) (12)
76BE09 76SVO4
IN
111
1153
11*
1153
JG
Av2N
-.130
150)
-.030
I 60)
f
1)
78HEiO
IN
111
1401
13+
1153
11,
248
JG
A,ZN
-.210
(70)
-.OlO
t 90)
0.00
(
4)
78HLlO
IN
111
1995
15,
1401
13*
594
JG
A.2N
120)
-.a10
t 20)
l 0.16
t
5)
7BHlO
IN
ill
2402
15-
2235
13-
lb7
JG
Ar2N
f
5)
78tiElO
IN
111
2462
17+
1995
15*
467
JG
At2N
IN
111
2614
17-
2402
15-
212
JG
A.2N
-.190
(10)
.OlO
120)
IN
111
2738
19-
2614
17-
124
JG
AIZN
-.220
(10)
.060
150)
0.00
IN
111
2769
ll-
2402
15-
367
Jt
Ar2N
-.120
(40)
,010
140)
+0.07
IN
111
3Yi9
21-
273.3
19-
2e2
JG
A.2N
-.190
1201
(40)
l 0.02
IN
111
3044
19-
2769
17-
275
JG
A.tN
-.190
(401
-.090
(80)
to.05
IN 111
3461
23-
3019
21-
442
JG
Ar2N
-.liO
1201
-.020
(30)
to.05
-.064
113)
to.21
(
Ib7)
CO.77
15)
-p.2
t
770112
(2301
to.6
SY 115
497
34
115
1.280
3+
SY 115
1280
3+
14ir
54
SN
SN
115
sa
115
sa
115
sa
0
9+
0 497 0 987
14
497
JG
3,
703
JG
ArA
1,
1280
JG
AIL
5*
430
JG
4.A
A,A
.a20 -.220
.480 -.166 .400
I601
.030
-.030
40.4
1 90)
0.00 to.06
4 41
7eneio
l 0.02
(
4)
78HElO
4 51
78HZlO
I
5)
7OHElO
t
61
78HElO
I
II
78liElO
I
7)
7sn~lo
2)
77OA12
(+83.-461
77OAi2
2)
(*16.-6
I
770412
7+
0
5*
724
JG
Ar2N
-.382
(17)
.050
(301
-1.0
Itlo.-
ti
770ROd
1099
7,
0
5,
1099
JG
A.2N
-.340
160)
,060
170)
-1.0
1*20.-g
J
77BPOb
115
1327
9+
724
I+
603
JG
A.2N
-.040
130)
.020
(401
+0.12
53 115
1381
9*
724
7,
657
JG
A.2N
-.220
(301
-.OlO
(60)
-0.07
I
1160)
a.0
I+ZO,-7
sa
724
115
1736
5+
S3 115
1754
114
1381
53 115
1754
11*
1327
2092
1.34
1754
114
2316
13-
1300
ll-
24513
15,
2092
2638
15-
2838
sa 115 sa 115 sa ii5 sa 115 sa 115
724
.lOO
b
77BROd
1013
JG
A.2N
9+
374
JG
A.2N
.086
1131
-.OlO
(20)
+0.24
f
9+
428
JG
Ar2N
,120
(69)
-.
11001
+O.EB
1 7)
77BROb
330
JG
A.2N
.005
(131
.020
(20)
to.156
(11)
778406
1016
JG
A.2N
(901
-. 050
(110)
-0.28
(11)
7782011
13+
365
JG
A.2N
(121
.OlO
120)
to.181
(
6)
77BRO.3
2316
13-
322
JG
A.2N
-0.14
I
9)
77aRo.5
174
2458
15+
381
56
Ar2N
Zl-
2796
1%
207
J6
As2N
19+
2830
ire
417
Jb
A.2N
-.a40
(208
A.2N
-.700
1401
A.2N
-.030
(40)
sa
115
sa
115
3256
98
115
3446
23-
3004
21-
442
J6
sa
115
3693
21*
3257
19+
437
JG
-.560
.041
ll20)
778208
41
7+
3004
-.300
77830.3
I 4)
050
(60)
-.lOO
f
.026
115)
-.040
(30)
l 0.166
(131
77BR08
-.505
(17)
(20%
-0.21
(
6)
778100
I
6)
-.230
66
.ooo -.050
.OlO -.070
Atomic
110)
77BROI
2)
(30)
to.116
(50)
-1.0
(601
+0.12
Data and
Nuclear
(t&O,-6 I
Data Tabler.
778ROI 1
3)
77BROd
770ROI
Vol. 25, No. 1, January
1990
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 d A d 149); 18, 137 (A > 1.50) See page 34 for Explanation
NUCLIOi
IN
117
INIJIAL LEVEL E(KEYJ
FINAL LEVEL EIKEV)
2J
389
3-
IN
117
1065
IV
117
1432
9*
IN
117
1432
9*
TE
117
578
7+
It
117
682
TL
117
821
2J
l-
315
ii+
0 1065
9* ii*
GAMIIARAV EIKEVJ 273
1065 366
reCnNIaUE
GG
A4
A2
1303
.326 -.070
(9)
-0.10
(50)
40.3
GG
1029
GG
564
.060
140)
40.15
GG
564
.09(1
14111
-3
9,
1432
274
5,
303
JG
Ae2N
-.220
(160)
74
274
5,
407
JG
A.2N
-.600
(501
9+
682
7,
140
JG
At2N
-.070
(100)
Tt
117
521
9*
53
119
210
7,
0
296
0
1213
94
270
7,
942
GN 66 GG
270
.467 .216 .463
(441 (421 (37)
TE
119
258
34
TE
119
320
54
Tf
119
u67
9-
280
TL
119
669
7+
320
TE
119
946
rt
119
1281
ii+
1:
119
1586
13+
ri
119
2121
21-
1638
TE
119
2292
23-
2121
SB
121
SB
121
SB
121
SB
121
946
9+
7+
1366
II-
1,
0 258
3,
ll5+
979
913
258
63
GN GM GN GG
154 270
270 976 270 270
.250 .230 .262 .212
(50) (50) (48) (33)
(10)
-0.12 -0.10 ;",.;, . -0.11 0.13 -0.31 -0.18
(+6 s-5 I+9 ,-I ;:;51-6 .-a 4 2) tt3 q-4
-0.11 -0.118
1*15,-13J
(61)
l 1.0
t+11,-7
)
771ao3
-.039
145)
-1.0
<+14.-5
J
-.OOb
(54)
-0.85
(+20,-231
-.03B
(43)
77BE52 77YAO3 77YAO3
.021
-.
,090 090
-.091 ,095
,010
(57) (34) (50)
(1OOJ
(100) (501 (461
(46
r-7
I
(16)
-O.bP
(*lg.-12)
-0.72
t+141-10)
-0.47 -0.9 -0.52 -0.33 -0.38
(*31,-17J (*il.-6 (442,-16) I+it,-lOJ
(+ll,-8
+0.02
( 5) (+14,-s (+6 ,-5 t+6 r-5
A.2N
-.050
(20)
-.050
(20)
l 0.17
(
JG
A.2N
-.060
(801
.160
(130)
l 0.12
(12)
79tlA47
6J
79HA47
207
JG
A.2N
1201
-.OlO
(30)
-0.235
(35)
79HA47
349
JG
A.tN
-.350
(140)
,170
(160)
-0.27
(251
79H1\47
A.2N
-.440
1240)
.270
(2.50)
-0.41
(391
79HA47
A.2N
-.530
(110)
JG
A.2N
-.99J
(240)
19-
4.33
JG
A.2N
-.a00
(401
Zl-
171
JG
Ar2N
-.350
(601
.130
-.llO .OOO -.020
(140)
-0.33
(17)
79MA47
(3301
-1.02
(58)
79m47
(60)
-0.355
165)
7 9HA47
180)
-0.045
(4SJ
79nA47
77KU23
94
37
7,
909
JG
PIP
.184
(72)
+O.Cb
(*lg.-131
37
7+
998
JG
P.P
.128
(42)
+0.35
(
1145
9+
37
7+
1108
JG
P.P
(65)
l 0.15
t+9
1385
3+
5+
1385
J(i
P.P
+1.2
(+56.-8 (*7 v-9
-.009 .254
(691
l 0.44
67
Atomic
Data and Nuclear
Data Tables.
77KU23
7) .-a
*
* * * *
JG
JG
l
77BE52 77YAO3 77YAO3 AVERAGE
GG
306
5 l
I I I
-1.0
JG
II
I
(40) (44) (36)
243
*
* x * * *
.009 -.031
335
*
67BE47 67BE.47 778652 77VAO3 AVERPGE
J
154) (34) (25)
7*
*
AVERhGE
-.102 .263 -.305
.lOO
*
* * * *
154 1213
-0.41 -0.41
*
67BE47 67BE47 77BE52 77BE52 77BE52 77YAO3 77Y403 7711103 77YA03 AVERAGE
1366
9+
0
I
t*19*-121
9+
1036
J I J J
NM
703
11,
,056 .006 ,040
(1001 (52) (371 (51
GG
946 1281
,040
(36)
119
13-
19HAC7
(37) (231
SB
2279
at
-.OOl
(441
ii9
t
(5)
.170
sa
(80)
(50) 135)
154
270
.120
-.198 -.Ob5
GG
9+
79HA47
1096
lb4
1249
9J
-.020 .045 -.006
7+
119
(
1201 (20)
1049
73GLO9
io.10
-.120 .079
9+
I
-1.1
1137 2090
1213
~*20*-2
(18OJ
-.200
GN GN GN GN MU E GG GG G6
119
79GLO9
79HA47
270
.0?3
(20)
(45)
5,
-.139
79GL09
-0.95
(40)
1137 2090
J
(70)
.0110
-.580
-.lBl
79GL09
.-1
79HA47
A.ZN
1096
2J
(201
JG
.062
f 1*2
-0.09
525
1137 2090 L/L
REFERENCE
(260)
-.JZO
7+
SB
sa
DELIA
I
77KU23
J 77KU23 J AVERAGE
Vol. 25, No
1,Januaty
l
*
1980
K. S. KRANE
E2,
MI Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 S A 6 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIOi
INITIAL LEVEL EtKEVl
FINAL LEVEL E(KEVl
25
TE
121
212
34
Tf
121
438
9-
293
TE
121
831
9+
443
GANUARAV E (KEV)
2J
1t
0
ll74
212
TECHNIPUE 56
Ar2N
A2
-.030 .140
A4
DELTA
L3OJ
,000
(40)
to.21
REFERENCE
(
7)
79H447
145
JG
As2N
(601
.ooo
(801
-0.29
(101
79HA47
387
JG
As2N
-.27O
(501
.140
(70)
-4.6
(
6t
79H447
t
TE
121
2015
21-
1654
19-
362
JG
Ae2N
-.520
(40)
-.OlO
(501
-0.15
t
4)
79HA47
TE
121
2331
23-
2015
21-
316
JG
Ae2N
-.380
(501
.ooo
(701
-0.06
(
Cl
79HA47
S8
123
160
5*
7t
i60
JG
P.P
-.049
(55)
-0.9
(4439-9
TE
123
c40
3+
34
281
JU
HT
-0.04 -0.06
( (
4) 4)
79sc13 AVERAGE
TE
123
468
3*
1,
440
JG
HT
-3.7 -2.1
(121 ( 11
AVER4GE
a
40.30
t (
51 4)
79sc13 4VERAGE
*
l 0.22
(101
79sc13
Ti
123
505
5+
0
159
0
159
3+
346
J6
MT
TE
123
669
54
159
34
529
JG
n1
l 0.54
Ti
123
784
34
159
3,
625
JG
HT
t3.6 t1.7
I
125
243
94
125
233
ll-
a4
125
505
13-
233
li-
19-
1096
ll-
BA
125
I
127
I
127
1736
58
375
l+
i4
127
417
54
I
127
011
54
I
127
651
9+
I
127
991
54
127
I
127
3+
55
GN
99
9-
134
JV
Cs3N
-.592
(16)
272
JG
C,JN
-.742
JG
C,3N
0
7+
I
I
136
991
54
1094
54
203
b40
54 3,
58
0 56 417 0 417
58 172
GN
GN GN
188
145
145 203
(6)
-1.27
(45)
78GI08
-.OZO
(1401
40.26
(15)
78GIOI
(11) (3)
-0.081
( aI
-0.083
f
-0.076 -o.oee
(111
-0.005
(
76LE23 AVERAGE
* *
76LE23 76LE23 AVERIIGE
*
6) 91 51
77KUl7 7bAUO6
t t
5)
(451
l
'
-0.40
(t60,-35)
78AVOb
t
7+
594
JG
NeN
-.400
(200)
-0.33
i449.-30)
78AYO6
t
5t
573
JG
NvN
-.200
5,
991
JG
54
678
(1701
-2.5
(151
78AVO6
NIN
.ObO
(18)
+0.6
(
3)
78AUO6
JG
NsN
.lOO
(60)
to.1
(
2t
74AVO6
(71
-0.01
(
21
76LE23
JG
AsN
-.159 ..?oo
(20)
.ODD
(20)
*0*03
1+3
(20)
.ooo
(20)
-2.11
(4il,-7
r-2
I
791401
1
79IROl
i4
318
JQ
A-N
-.120
3,
2112
JO
AeN
-.4OO
(101
,020
(101
-a.#3
(4.3
.-I
I
79IR41
.460
(201
.030
120)
l 2.0
(44
r-2
I
79IROl
(20)
,050
(30)
.0.6
(41
.'2
8
791~01
XE 129
665
74
321
54
353
JG
A*N
XE 129
822
54
516
74
303
JO
AvN
XI 129
a22
54
32L
54
500
JG
AsN
3+
504
JD
ArN
3ib
.095
(1201
(30)
279
54
1101
.ooo
3,
a22
76GIO6
NvN
40
129
(101
JG
3,
xs
-1.3
417
31.3
40
(14)
5,
XE 129
5*
76LE23
t (
196
321
(101
40.33 to.6
GN
129
t
-0.026
(501 (40)
40
xi
i *
.410 -.060
14
0
79SC13 AVERAGE
.067
(7)
l
50 NsN
0
34
-.OE2 .217
)
l
GN JG
3*
318
-.223
79x13
* *
360
so
129
.lOO
l-91
113) .-3
77KU23
7+
XE 129
xt
.229
(t4
1
-.520 .260
-ail0
68
(10)
-.060
(10)
-0.09
1 2)
79IROl
(601
-.090
(90)
-5.4
(
79IROl
Atomic
Date and
Nuclear
Data Tablss.
9)
Vol. 25, No. 1, Jenuary
1880
K. S. KRANE
E2,
Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 =S A s 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIDE
INITIAL LEVEL EIKEVt
FINAL LEVEL E(KLVt
2J
GAHHARA’( EfKEVt
25
-.650
(501
.160
(401
-0.95
(25)
77GIO2
97
JG
-.430
(30)
.020
I501
-0.3
I
4t
77GI02
9-
339
JG
C, 3N
-.480
(40)
.o.so
(401
-1.2
I
9t
77GIO2
9+
2az
JG
C.3N
-.blO
(301
,320
(loot
-1.34
I
4t
77GIO2
(50)
-0.88
I
9)
77GI02
(bOt
-1.2
1 3)
77G102
277
ll-
181
9-
a4 129
519
ll-
181
aa
544
114
262
129
7+
255
BP
129
b42
13-
277
ll-
365
JG
C.3N
-.700
ISO~
.lbO
8A
129
796
15-
642
13-
154
JG
C,3N
-.460
ISOt
.070
BP 129
682
13-
277
ll-
605
JG
C.3N
BA 129
1044
XE 131
364
xs
131
405
19-
1317
17-
5+
0
3+
0
3+
3*
.130
527
JG
C13N
-.700
364
JG
ArN
-.120
405
JG
4-N
.lCO
(601
(70)
to.50
(251
776102
(60)
,100
(701
-1.02
(5.01
77GI02
Ilot
.040
(10)
-3.1) -3.90
I 3) (151
AVERAGE
l
+1.1
rt71r-431
+4.6
(429,~141
79IROl AVERAGE
* *
(201
to.12
(+5
79IROl
+
(151
+o.sz CO.52
(101
XE 131
723
5*
0
3+
723
JG
A+N
-.ObO
IlOt
cs
133
5*
0
5+
133
GG
466
,353
(161
cs
131 131
620
14
CS 133
lb1
5,
216
0
-.122
(7)
-.ooc
(12)
7+
161
GG
276
-.495
(51
-.054
(6)
7+
406
JG
P.2N
PY
410
3,
91
5+
319
JG GG JG GG
PY
lU7
Pfl 147
PM
147
531
531
531
54
5+
91
5+
420
3+
91
5+
0
54
396
121
440
I
(61 (141
-1.0 -0.41
I 71
(61
-0.34 -0.369
(5)
NN NN NG NN GG JG JC GG
-.022 .027 -.074 -.062 -.059 -.052 .076 -.063
((II
-.a02
(9)
Zf 91 91 91 HT PtZN 91
(16)
-.OlO
1271
1191
-.019 .008
(23) 132) (17)
JG GG
HI 319
.070 -.020
GG G6
91 91
7+
531
JG
MT
408
9+
259
JG
P.2N
667
PI(
147
b8U
7+
408
94
272
6N
408
Pn
147
686
5+
489
r+
197
NN NM NM JC GG
396 396 396 nr 91
.073 .067
-.074
,106
(1st (6)
(181
.003 .009
.OOl
.Oll
(12) (9) (4)
,009 -.040
(6)
(10)
-.015
t15t
(25) (12)
-.017
(26) (21)
(ill (7)
L?)
.OOl
-.002
,010 -.002
(101
(15)
3t
40.17
(+2
r-3
t
(+5
s-4
t 1 t
(+10,-d ( I
l 0.29 l 0.30
,-7 5) 4t
I 1)
to.31 40.30
I
ct
I it
to.037
(56)
+0.013
(40)
to.033
(22)
to.77 to.71
1101 ,-4 I 3t
(2)
-0.40 -0.40
( (
+7.4
(+5
78V311 AVERAGE
*
77SL20
t
79THO2 AVERAGE
*
l
l
77AL34 77AL34
to.02 to.36 to.31 to.31
I+lJ
*
77UO24
I 3t I 7t (14)
to.67
(6)
b
loot
to.57
-.062 -.092 .027 -.OOO
(10)
0.4
115)
IIT 91 P,2N 91
79IROl
I 3) I 31
(13) (131
lilt
-.021
.-2
+1.2l3 +1.28
.230
WI 147
i1+
.OCb
216
0
7+
-.030
(10)
NN
9+
489
-.030
404
CO3
PII 147
-.020
3+
Pll 14r 147
REFERENCE
C*3N
aA
129
DELIA
C, 3N
262
7
A4
A2
JG
BA 129
9+
TECIINIPUE
t
t
COBDl7 665025 7OBLl2 74MO2 77AL34 77AL34 77K024 79Voo9 AVERACE
** *I a* WI WI
77A~34 77AL34 AVERACE
I
l t l *
** **
l
*
ItAL 79Voo9 AVERAGE
* *
3) 3t
77A.34 AVERAGE
l l
I
6t
TTY024
8
l
(1st
.ObO
(201
-.2I53
(10)
.015
(10)
l 0.10
I
31
795205
-.067 -.054 .ObL -.a05 -.034
(9) (20) (12) tsst 134)
l OOl
(11)
l
(2% (21) (511
(24) (46) I 41
608017
.043 .070 .033
-0.017 -0.046 -0.33
615113
l
,026
(5.1)
Atomic
Data and Nuclear
-0.11
(15)
-0.27 -0.22
(101 I 8)
Data Tables.
74BYO2 77AL34 77AL34 AVERAGE
Vol. 25. No. 1. January
*
* l *
WI I)* l *
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 d A c 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIOE
PH
PM
147
147
INITIAL LEVEL EIKEVJ
2J
686
5+
606
PM
147
666
PN
147
1073
El
147
995
FINAL LEVEL E(KEVJ
54
ii+
ZJ
410
3t
91
5*
5t
0 408
9-
GAMARAV E(YEV>
276
595
A2
.008
A4
(11)
JS GN
319 91 CIZN 319
-0030 -.160 .006
112) (201 (2,
GG JG
91 HT
,043 .047
(38) (36)
,005 a049 ,005
OELTA
(19) (26) {5J
to.12 to.27 -0.21
REFERtZNCE
I
147
1122
7t
229
; 6)
77AL34 77AL34 77K324 79SE05 AVERAGE
* * * * *
( I
to.107 to.110
J
,001
(54) (37)
b 7 7
(00) IO01 i001
77AL34 77AL34 AVERAGE
* * f t
-.a44
686
JG
191
.002
(10)
-0.95
(30)
77AL34
9+
664
JG
P,ZN
.32a
120~
.lOO
(30)
t2.0
I
77KD24
370
JG
C&N
,361
(37)
l 039
(43)
t1.3a
(30) (38)
HT
-.116
+L.3A
EJ
4) .-e 31 71
;t9
7t
il-
626
TECHNIQUE
It
893
GN
.ooo
229
Ill)
-.004
3)
77FLO9 AVERAGE
* *
7lVA37 AVERAGE
** **
to.62
;t22.-161
to.62
;+22,-16)
(75)
to.22
;*6
(51)
t2.54
(t95,-60)
77F~09
(4OJ
77FL09 77Ft09
(21)
EU 147
2346
Zl-
1927
19-
421
JG
Ce4N
-.653
(69)
iu
147
2997
23-
2348
Zl-
649
J6
C,LN
-.435
(43)
EU is7
2997
23-
2293
23-
704
JG
Cv4N
.225
(23)
-.033
(26)
to.384
EU 147
3230
zr-
2901
27-
330
JG
C14N
.385
(43)
-.135
(52)
-0.52
(13)
516
JG
,412
(39)
IlOOl
-3.1 -3.1
it25,-13~ ;*25,-13)
(56)
-1.35
(PO)
77F~09
(61)
-19
(too.-13)
77F~O9
;t18.-17)
77SE06 77SiO6
EJ
El
149
149
EU 149
666 910 lb58
9+
JG
LI,JN
.318
(24)
9*
910
74
748
JG
LI.3N
.ObO
(58)
5,
256
GN
ill
.088
(5)
to.65
3t
171
GN
256
.068
(5)
-0.20
(
102 258
.140 -.300
-0.06 -0.21
(tic,-13)
cc: G6 GG GG
275 275 275
.225 .208 ,190
-0.13 -0.099 -9.07 -0.096
I 5J (231 It7 r-6 (141
(114) (40)
+0.2
;t14.-2 ;tz(l.-131 t 1)
P1
151
426
1t
s’y
151
66
I-
151
SN 151 sn
151
70
ia5
105
5-
5-
33-
a
256 0 5
0
5 0
53-
5-
35-
66 65
70
GG GG
275 275
::
240 240
.156 .I69
GG GG GG
240 240 240
100 105
-.219 -.240
-.163 .131
I.30) IlZOJ
-.050 -.060
(29) (15) (40)
-.039
(57) (30)
(90)
(1801 164)
,011
(151
,000
(701
,058 -.034
t0.28 +0.16
;+24.-16)
.046
(62)
-0.006
.012
Ill))
to.015
-.019
(27)
.045
(52)
-.005 .017
(101 (221
.Oll
(158
-O.O45;t60,-531 -0.076 (23)
(14)
-0.13
209
I-
70
I-
139
GG
EU
151
307
5t
197
3t
111
JG
EJ
151
307
7,
21
7+
2D6
JG
74
0
5t
EU 151 EU 151
307
503
9t
21
7t
307
482
J6
JG
.ZSO
(60)
-.060
o-0
.040
(70)
o*o
.069
o*o
.024
65
-.270
o*o
(+6
70
r-5
-0.16
.ooo
(70)
.O.ll
(03)
.139
(1001
to.7 +0.7
(171
,000
(19)
to.27 to.27
I I
-0.A4 -0.50
;+15.-301 ;+15.-12)
-.003
Atomic
124)
Data and Nuclear
)
1
(141
(110)
(201
1
152) 125)
-0.095
SY 152
31
(32) (15)
-.008
77FL09
77F~09 AVERAGE
760
3t
s4
,194
7t
256
70
LIv3N
.-lib
150
151
151
7t
.018
74
PW
sn
150
-.121
;t7
e-6
t tt7 ;+7
Data Tables,
I
51 .-5 .-5 71 71
* *
l l
77H021 77NO21
t t
76BA44 77Wl2 77H321
* l l
AVERAGE
*
768~44
*
77BUl2 AVERAGE
l l
760A44 77BUlZ
t t
760~44
l l
77BUlZ 77nOZl AYERASE
l
*
77HO21
77DRO4 J J
77ORO4 AVERAGE
l
77ORO4 AVERAGE
l
77DPO4 AVERAGE
fi
Vol. 26, No. 1, January
l
l
l
1960
K. S. KRANE
E2,
Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 < A =s 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIDi
so
151
INITIAL LEVtL E(KEV)
FINAL LEVtlL E(KEV)
2J
108
0
5-
GANtlARAY EIKEVI
2J
7-
TECHNIQUE
A2
A,ZW
108
140
63
151
379
9-
s3
1st
395
3-
GO 151
427
;D
151
575
GO 151
507
A4
.osz -.209
(9) (14)
.093 -.017
OCLTA
REFERENCE
(9) (281
-2.5 -0.828 -0.820
( 21 (24) (24)
379
JG
A.ZN
-.091
(4)
.otc
(5)
+0.072
(
106
5-
287
GG
108
-.342
(131
.016
(22)
l 0*2oa l 0.20.3
(16) (16)
5-
108
5-
319
JG
A*ZN
.OCJ
IlOO)
(1lOJ
-0.3u
l-
395
3-
1.30
GG
287
.21tl
119)
.017
(36)
-0.075 -0.075
(24) (24)
79VAI4 AVERAGi
(I i(
3-
395
3-
192
GG
252
(32)
,004
(63)
-0.116 -0.116
(46)
79VAl4 AVERAGE
s
(46) (+48,-3oJ (*48, -30)
79VAl4 AVERAGE
* *
151
587
3-
a
0
108
5-
479
GG
108
-.148 .040
-.350
.030
(23)
+10.4 t18.4
(40)
.lOO
(501
-3.0
151
719
9-
7-
719
JG
A.ZN
812
J-
395
3-
4lb
GG
287
.OCB
(56)
GO 151
012
3-
108
5-
704
GG
108
.040
(20)
GD 151
839
i-
587
3-
252
GG
479
.15b
(12)
0
-.090
(11)
GO 151
40.39 ,007 -.005
(41) (25J
A39
l-
395
3-
444
GG
-.168
287
151
lllb
13*
352
13,
264
JG
A.2N
GD 151
llib
13,
705
114
331
JG
Pi.2~
Gil
151
1210
it-
379
9-
831
JG
A.2N
GO 151
1364
15+
1116
1.3,
248
JG
A.ZN
GO 151
1463
13-
1210
ll-
253
JG
A.2N
-.570
GO 151
1726
15-
1463
13-
262
JG
A.2N
17-
291
JG
Zl-
315
JG
110
GG GG GG GN GN GN
102
GJ
GD 151
2295
19-
2004
to
2915
23-
2600
151
CD 153
c3 G3
153
110
129
5-
3-
0
42
3-
5-
aa
GG
.360
1141
,-5
(
0.00
79VAl4
( (
5) 5)
79VAlc AVERAGE
*
79VA14 AVERAGE
* *
-0.559 -0.559
(14)
(14) ( 5J
77SWOl 77SWOl
.120
(70)
.250
(80)
l .3
t+9
.150
(1301
-.130
(170)
to.20
t+4
(20)
-.OlO
(20)
-0.22
( 5)
77sno1
-.540
(201
.020
(30)
-0.18
(
77SilOl
A.2N
-.540
(60)
.060
(80)
-0.13
(13)
77sno1
As2N
-.ClO
(14OJ
(200)
+0.12
(28)
77sno1
.177
194 206
-.192 .163 .I67 -.172
835 846 992
.lSO
83
-.G28
(10) (37) 1591 (2.3) (41) I221
(9)
129
GG GG
63 83
.I58 .270
(291 (15)
GO IS.3
250
5-
0
3-
250
JG
MT
.491
(12)
GO 153
362
3-
0
3-
362
JG
HT
GO 153
449
5-
I-
355
JG
HT
GO 153
449
5-
GD 153
549
5-
GD 153
549
5-
GO 153
858
3-
GO 153
858
3-
0
EJ
(
3-
42
(
-0.05
0
O
79VAl4
-0.19
-.496 .049 -.625
-.200 ,003
(69)
.867
(103)
-0.053 -0.04 -0.03 -0.04
-0.01 -0.014 -.JOb
-.024 -.029
(17)
I451 (46)
(*9
3J .-3
)
77SMOl
,-5
I
77sno1
5)
(15) ( 51 s-8 ( co
(+6
r-5
* * * * * * * * *
(32) ( 21
-0.026
(20)
-0.011
(1.3)
76ALO9 AVERAGE
+0.012 to.19 +0.12
(36) ( 3) 1 5)
7bALO9 77BA63 AVERAGE
-0.14
(
9)
7.5NAl4
(32)
*a.20
(
4)
78NA14
(43)
-0.03
(
6)
78WAl4
3-
449
JG
HT
147)
l 0*22
4 5)
78YAl4
I-
456
JG
MT
.003
(24J
-0.09
(
31
713WAi4
3-
549
JG
HT
.014
(391
iO.18
(
3)
T.%lAI4
(
9J
5-
816
JG
HT
-.141
(28)
-1.8
650
JG
HT
-.522
(26)
+0.25
71
Atomic
Data and Nuclear
t*3
e-2
Data Tables.
l
76AL09 7bALO9 76ALO9 76ALO9 J 76AL09 76AL09 AVERAGE J
-0.09
3-
l
77SHOl
4J
~+llr-l6J
-0.25
* s
775101
(4OJ
3-
O
1
(20)
129
93
79VAl4 AVERAGE
.OOO
153
93
-.OlO
(301
77sno1
(40)
-.510
(20)
-.OlO
4)
t*c
0.00
151
* i c
r-
so
CD
77SHOl 79VAL4 AVERAGE
)
78YAl4 7WAl4
Vol. 25. No. 1. January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 =SA s 149); 18, 137 (A > 150) See page 34 for Explanation
INITIAL NUCLIDE
18
153
LEVEL EtKEVI
61
FINAL LEYEL E(KEV)
2J
7*
13
153
254
7*
13
153
263
9-
TB
153
325
94
GANMARAY E(KEV)
25
0
5+
0
5+
il-
163
Al
7t
FECHNIPIJE
A2
GG E
03 L/L
-.016
254
GG ii
471 L/L.
-.102
100
GG E
275 L/L
GG E
L/L
91
244
,208
Ill
A4
(36)
(60)
(201
-.a21
(20)
-.150
(26)
TB
153
445
9t
254
7+
190
GG E
254 L/L
la
153
537
7-
263
9-
275
GG
100
16
153
750
7+
325
94
415
GG
244
-.384
(46)
GD
151
267
5+
116
7+
149
JG
n1
-.027
(7)
GO
GD
155
155
267
269
54
34
5+
105
3*
100
I63
JG
JG
nr
-.086
HT
-.069
(201
.032
-.036
-.062
,026
-.036 .009
(72)
REFERENCE
+0.13 a.13 to.13
(49
1-s
(99)
t1.2 0.34 to.34
(+78,-9 t 4) ( 4)
(3.3)
to.095 0.095
)
77ALZb 77AL26 AVERAGE
1
77AL20 77AL28 AVERAGE
1) I)
( (
(10)
77AL28 77AL28
(10)
(401
+0.32 0.56 to.56
(+53.-20) ( 6) ( 6)
77AL28 77AL28 AVERAGE
(60)
-0.25 0.26 -0.26
(t13.-10) ( 6) ( 6)
77AL26 77AL28 AVERAGE
(381
+2.5
(
77AL2.3
(85)
+a.22
(5)
(6)
3)
(4.3
.-7
1
77ALtl
-0.14 -0.130
( ll (
7)
AVERAGE
*
-0.23 -0.220
(
2)
7901106 AVERAGE
*
*
79DUOb
(11)
to.06
(
+0.095
(35)
79ouoe AVERAGE
5)
3-
267
JG
Ill
-.lOO
(30)
-0.09
(12)
790UOS
227
5-
664
GN
227
.343
(16)
l
(
5)
77AL30
3-
227
5-
724
GN
227
-.155
(62)
-7
4 3)
77AL30
5-
227
5-
835
GU
227
-.297
(66)
-0.56
(+47.-331
77AL30
5-
841
GM
227
-.043
(60)
-0.25
(
77AL30
(13)
$3
I55
287
3-
la
155
891
3-
15
155
951
18
155
1062
67
.206
-.047
DELIA
0
O.36
TB
155
1068
3-
227
ra
155
1155
5-
250
7-
906
GM
227
-.0513
(6.5)
-0.27
TB
155
1155
5-
227
5-
929
CN
227
-.275
134)
-0.56
(+37.-281
77AL30
E;I
165
243
3-
5-
243
GN
1164
-.050
(l(L)
(39)
to.02
(
4)
75fUI3
ER
165
590
l-
3-
347
GN
243
(38)
-0.02
(11)
75fUl3
T’4
169
118
5*
3+
110
GM
7*
I77
GM GM
TN
169
316
7,
0 243
a 139
.024
.057
(11)
-.034
198
.345
(9)
-.049
Ii0
-.313 .254
1.91
(36) 113)
1’4
169
316
T+
118
5t
198
6H
118
-.280
(60)
TN
169
332
9+
139
7+
193
JG
s*s
-.534
(17)
.052 ,022 .069 -.016
6)
(13)
-0.133
152) 123)
-0.06 -0.17
(*lo,-8
(11)
(80)
-0.29
(+lI.-9
(20)
-0.105 -0.105
(11)
78VEO7
t
78VEO7 76VCO7
t t
I
78VEO7
t
(11)
77TAiO AVERAGE
l l l
1t7
1-5
637
134
361
lit
270
56
SSS
-.532
(24)
-.a40
(31)
-0.123 -0.123
(14) (14)
77fAlO AVERASE
11
169
1028
ir+
691
15+
337
J6
s*s
-.581
(66)
-.I00
ti101
-0.127 -0.127
(35) (35)
77TAlO AVERAGE
Data end Nuclear
Data Tables.
l
) )
I69
Atomic
l
77AL30
TM
72
l
Vol. 25. NO. 1,Januafy
*
l
’
lse0
K. S. KRANE
-.------
-
.
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
.-
.
.
-.
..
.
..-.
.
-
.
. -.,
. .-
. .
L‘ABLE 111. EXpertmental Uata on Angular Ulstrlbutlons ancl Mixing Katlos ln Uaa-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 s A c 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLI
DE
INITIAL LEVEL E(KEV)
2.l
YB lb9
71
9+
YB
87
3-
lb9
FINAL LEVEL E(KEV) 0
ZJ
GAHMARAY E.(KEVl
T&XNIQUE
A2
A4
DELTA
7+
71
E
L/L
0.28
24
l-
63
E
L/L
0.60
REFERENCE
(+8 (
Y9
lb9
99
5-
67
3-
12
E
L/L
0.026(+5
V3
lb9
162
11+
7l
9+
91
E
L/L
0.265(+23.-26)
w-11)
71APl7
3)
7tA717
e-4
I
-0.274(+22.-25) ‘If3
lb9
191
5-
99
S-
87
3-
VB
lb9
191
5-
YB
lb9
279
7-
191
3-
TM
171
913
5+
635
7*
‘IB
171
67
0
3-
v3
171
lb6
9*
VB
171
208
7-
YB
171
259
Ii*
95
l-
E
L/L
0.15
E
L/L
0.07
E
L/L
0.234
NM GG
210 210
92 104 07
277
67
JG
HT
.I19 .la2
-.2oa
16) (13)
.029
(34)
(101)
(
r-7
7bPAl6
*
78BA03 AVERAGE
* *
l 2.0 +a.69
(+50.-12) ( 2)
7bK304 AVERAGE
* *
7+
72
JG
MT
,170
(501
-0.10 -0.28
( (
61 1)
IbK?OS AVERAGE
* *
122
5-
86
JG
MT
.2x54
(56)
-0.07 -0.24
( (
51 4)
7bKRO4 AVERAGE
* *
lb9
9,
91
GM
. 191
(49)
689
.090
(90)
-0.22
t*13*-111
-0.28
t
5)
77SIOS AVERLGE
* *
4) 5)
7CKRO4 AVERAGE
* *
76KRU4 AVERAGE
* *
76~~04 77SEO5 AVERAGE
* * *
208
7-
109
JG
HT
,255
(42)
-0.08 -0.22
( (
18
171
835
7-
317
9-
518
JG
ii1
.540
190)
t1.2 to.52
(+l7,-7 (151
18
171
835
7-
208
I-
627
JG GM
MT Bb
-.230 ,259
(50) (501
+1.3 +2 +I. 00
( 3) (422.-l (171
JG
HT
.407
(191
122
5-
713
YB 171
935
9c
168
9+
76.9
JG
MT
VB
935
9*
95
7+
040
JG
HT
171
77ARl7
( 2) ( 21 (Ill
9-
7-
I
-0.36 -0.31 -0.338
311
835
l
77ARl7
171
171
*
113)
va
v3
77ARi7 AVERAGE
ITAR
2)
t+3
77ARl7
-.I08 .566
-.
103
(100)
)
b
-2.1 -1.54
I 4) (1.3)
76KRU4 AVERAGE
*
(38)
-0.34 -0.34
( (
76KR04 AVERAGE
* *
(9)
-0.5; -0.51
7bKRO4
*
81 81
(*II ~-7 1+10.-7
) I
l
AVERAGE
l
VB
173
636
I-
179
9-
457
RI
l 0.65 l O.65
(14) (ICI
79DZ02 AVERAGc
l l
‘I3
173
636
I-
79
7-
557
RA
t1.95 t1.95
(la)
190202 AVERAGE
l
(101
-0.41
-0.41
( (
8) 81
790202 AVERAGE
* *
l 0.21 l 0.25
( (
4) 2)
77WEll AVERAGE
*
-4.65 -4.7
-4.66
(20) ( 31 113)
77Kil2 79ERi2 AVERAGE
’
-0.10
I 41
76AJO2
t
YE
L!J
HF
1A
173
117
l77
it?
636
289
113
7l
7-
0
150
li-
9-
54
5-
9-
a
0
I-
74
636
139
113
71
RI
NM
JG JG
GM
150
-.042
(78
HT nr
115
.a00
13
(20)
Atomic
Data and Nuclear
Data Tables.
Vol. 25, No. 1. January
l
l
l l
1980
K. S. KRANE
E2,
A41 Mixing Ratios, Supplement and Corrections, December 1979
TABLE III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 c A s 149); 18, 137 (A > 150) See page 34 for Explanation
NUCLIOt:
INIlIIL LEVEL E(KEVJ
ZJ
2J
G4UN4R4V E(KEVJ
123
lit
146
JG
HT
-0.330 -0.385
(75) (42)
75HUI5 AVER4GE
FINIL LEVEL E(KEVJ
TECHNIQUE
42
A4
DELTA
REFERENCE
HF
179
269
13t
HF
179
439
is*
269
13,
170
Jci
HT
-0.327
(45)
75nu15
ttr
179
631
I7t
439
15,
193
JG
MT
-0.262
(561
75HUlS
HF
179
640
19,
631
i7t
217
JG
NT
-0.365
(33)
75NUIS
HF
179
IOOS
21+
@+a
19t
236
JGI
ttl
-0.301
(30)
75WI5
r4
I&l
136
9+
0
7+
13b
JC
KR.KR
9,
166
JG
KRIKR
St
482
GG
133
T4 161
302
r4
482
1.31
lit
136 5*
0
-.028 .026 -.313
(111
.007
(17)
tO.352(+84.-781
(121
,025
1191
to.53
(tcl*-ZoI
(8)
+4.96 t5.4
(25) ( 2)
IbJ
-.074
76INO7
t
76IN07
t
77F310
*
4VER4GE
*
14
191
496
134
302
iit
194
Jt:
KR,KR
.082
(161
,002
(24)
+0.53
tt12,-9
14
181
717
is+
496
13t
222
JC
KRsKR
.127
I291
.022
(461
l 0.49
(+7
r4
I81
965
174
717
15+
248
JG
KRIKR
,103
(68)
,021
(108)
to.33
(*14.-10~
Pi
101
444
11+
267
9t
I77
J6
4.4N
.OlO
(20)
.a00
(30)
to.166
(201
7bNiO3
9:
I81
619
I3-
427
II-
192
JG
At4N
.a30
(20)
-.020
(30)
+0.177
(1El
7bNE03
Ri
181
647
13,
44s
11*
203
JG
A, CM
.050
(201
-.a10
(301
40.185
(14)
76NEO3
ar
181
834
15-
619
13-
215
JG
4r4N
.040
(201
-.OlO
(301
40.183
(19)
76NE03
Qf
ibl
873
I54
647
13,
227
JG
A,4N
.ooo
(30)
.020
(50)
+0.140
(23)
76NE03
I-I
la1
17*
873
1st
244
JG
4&N
-.a30
(30)
(501
to.123
(231
76NE03
A.4N
-.040
(30)
(501
l 0.117
(20)
7bNE03
1117
QE 161
1377
19,
I117
17,
260
JG
a7i l&I
1602
21-
1328
I+
274
JG
A,4N
RE 101
1642
21+
1377
19+
265
JG
A.CN
RE
101
I.933
23-
1602
21-
282
JG
A.4N
Y
183
209
3-
l-
209
JG
ArA
Y
I83
292
5-
99
5-
193
JG
4~4
Y
183
292
5-
46
3-
2k5
JG
A.4
41
I85
295
9-
293
JGG
4u
105
610
395
JGG
RC 187
13s
134
GN GN GM
72 480 552
0
Il15-
2 215
74
13-
II
5,
.050 -.O70 .020
-.040
,010
197
625
4u
169
714
PU
189
al4
14
5B9
3,
II-
327
9-
13-
249
II-
36
7bINO7 7bINO7
7bIYO7
(201
-.OIO
(301
40.164
(181
7bNEO3
(50)
-.040
(70)
l 0.086
(40)
7bNE03
(20)
-.020
(30)
+0.151)
(171
7bNE03
79HCO4
t
(t5
(ill
to.56
(t41.-301
(141
to.16 to.16
(44
315
t1.0
ttio.-6
t
79oia3
213
+2.1
(t36.-2
J
79OE03
I
791414 7WAi4
-.oiz
-.002
-.a01 -.019
(1) (4) (3)
-.ooz -.004 -.002
(3)
E
L/L
368
JG
4t6N
(6)
+0.182(+3 to.172
(4)
to.202(t14.-4
566
JG
A.6N
0.42
-.3iO
.a30
74
(t4
r-3 .-3
.-4
I
t
-0.6
.I37
s-4
79nco4
(II)
-.087
to.184 a1
I ,-i2J
i o
I J
( bJ J
79nco4 AVERIGi
l
*
4VER4GE
l l
(+20.-12)
76SA34
t
I
3)
79v414
* *
(1601
-.I310
(220)
-1.0
lt45.-101
77G312
(10s
,030
(30)
40.10
I
776312
Atomic
Data and Nuclear
Data Tables.
1)
Vol. 25, No. 1, January
1980
K. S. KRANE
E2,
Ml Mixing Ratios, Supplement and Corrections, ?ecemk-
‘“-?
TABLE III. Experimental Data on Angular Distributions and Mixing Ratio:. in c)ctd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 5 A d 149). 18, : 37 ( L\ > 150) See page 34 for Explanation
NUCLIOE
PT
191
INITIAL LEVEL EtKEVJ
30
FINAL LEVEL EIKEVl
2J
l-
0
&AMARAT ECKEVJ
25
TiXHNfQUE
3-
30
E
L/L
A2
OcLfA
A4
REFERENCE
O.OZB
(
675006
i3J
**
PT 191
lb6
3-
30
l-
136
E
L/L
0.42
(
71
67JOOb
PT
191
lb6
3-
0
3-
lb6
E
L/L
0.55
(
51
b7J306
l
Pr
191
276
3-
0
3-
278
E
L/L
0.00
I
7)
67JOOb
**
pr
191
27.9
J-
30
l-
247
h
L/L
u.50
(161
675306
**
PT
191
278
3-
10
s-
268
E
L/L
0.35
(*12*-15J
67JOO6
**
Pl
191
468
7-
400
5-
08
E
L/L
0.25
1*8
675306
l *
AU
191
a97
ll-
540
9-
357
JU
A. 4N
-.480
1130)
AU
191
1351
is-
911
13-
440
JG
A&N
-.55u
(330)
-.040
.ZOO
(18OJ
-1.16
(4bOJ
-1.0
e-111 (811
776312
(*5u,-lO~
77G312
(23)
77G312
1130)
-.2i30
t1ouJ
l u.5u
-.390
(201
-.020
(30)
-0.14
(+3
r-6
J
78LIlO
A,hN
-.540
(50)
-.020
180)
-0.28
(+7
,-6
J
78LIiO
(60)
-0.65
(+20,-18)
(50)
-0.38
(*12*-8
I
78LIlO
.oeo
l3UJ
-0.75
(+15*-14J
.u9u
AU
191
1377
17-
686
15-
690
JG
A.CN
TL
195
2213
17*
2037
1st
176
JG
A.6N
ii
195
1190
13-
877
ll-
313
JG
.355
rL
195
1484
is-
877
ll-
607
JG
ArbN
-.6.90
(40)
TL
195
lb19
15-
1190
13-
429
JG
A,bN
-.62U
(30)
TL
195
2470
19-
2012
17-
459
JG
A,bN
-.92u
(20)
.ObO -.u4u
TL
195
2470
19-
1925
17-
54b
JG
A.bN
-.820
(100)
(1501
-0.58
(+15.-16)
1,
195
253U
194
2213
17,
317
JG
A.bN
-.510
(30)
-.u10
(501
-0.21
(S4
ri
195
2841
21+
2530
i9+
311
JG
A.bN
-.54u
(50)
-.01u
(80)
-U.18
TL
195
3060
25-
2861
23-
199
JG
A.bN
-.3OU
(60)
TL
195
3202
23,
2841
21,
361
JG
ArbN
-.560
(30)
ri
195
3515
25*
3202
232
312
JG
AtbN
-.6CU
150)
T,
195
3730
274
2lb
JG
A.bN
-.35u
(301
rL
197
996
388
JG
A,4N
-.590
(201
TL
197
ll-
308
JG
A.4N
-.320
(201
1L ri
.OlU -.03u .ozu
,-5 I
*
I&I10
78LflO 78LIlO
)
7OLIlO
7)
7BLIlO
(90)
l o.u1
( CJ
7.x110
(501
-0.26
(
78LIlO
IBOb
-0.32
(501
-0.09
( 6)
78LIlO
(301
-0.50
1+15,-17)
76LIlO
(30)
-4.11
( 31
7'3LIlO
7)
(+ll.-9
**
1
78LXlO
3515
25t
ll-
606
9-
1304
13-
99b
197
1720
15-
1304
13-
416
JG
A,lrN
-.490
(30)
.OlO
(40)
-0.21
( 4)
78LIia
197
2019
LI-
1720
15-
299
JG
Ar4N
-.520
1401
~000
(60)
-0.17
( 41
78LIlO
TL
197
2267
17,
2114
154
152
JG
A,(tN
-.270
(40)
(60)
-0.10
TL
197
2462
19+
2267
17+
196
JG
A.4N
-.3lU
(301
(401
-0.07
T,
197
ZSPb
19-
2019
17-
408
JG
A,4N
-.560
(30)
-.UlO
(401
-0.34
TL
197
2597
Zl-
2426
19-
171
JG
Ar4N
-.33u
(20)
-.OlU
(30)
-0.03
T.
197
2802
21,
2462
19+
339
JG
A,CN
-.480
130)
.040
(401
IL
197
3147
234
2eo2
21+
346
JG
A.4N
-.560
(40)
.060
1601
TL
197
3569
25+
3147
23+
421
JG
A.4N
-.260
(LOI
.OlO
(90)
-0.06
( 6)
7ILIiO
n;
199
208
3-
150
5-
50
E
L/C
0.039 -0.039
1 3J 1 3)
77OROb AVERAGE
* *
t4;
199
208
3-
0
l-
208
6
L/L
0.35 -0.35
( (
lb
770R06
*
1)
AVERAGE
*
-.OlO .oou -.030
-.030 .u3u
1*7
.-IO) (
(+7
78LIlO
68 ,-5
78LIlO )
7aLIlO
f
3)
78LIia
-0.05
(
71
7OLI
-0.14
(*14,-121
10
78LIlO
** New value which replaces previous incorrect value * New value which changes previous average
75
Atomic
Data and Nuclear
Data Tables.
Vol. 25. No
1. January
1980
K. S. KRANE
E2, Ml Mixing Ratios,Supplement and Corrections, December 1979
III. Experimental Data on Angular Distributions and Mixing Ratios in Odd-A Nuclei Supplement to ADNDT 22, 269 (A < 57); 19, 363 (59 s A c 149); 18, 137 (A > 150)
TABLE
See page 34 for Explanation
NUCLIOE
INITIAL LEVEL EIKEVI
2J
Ii;
201
Hi
201
TL
201
rL
201
1572
TL
201
1962
I.
203
279
3+
TL 203
685
5+
1216
94
205
204
3+
TL
255
625
5*
P3
237
897
3-
T.L 203
TL
FINAL LEVEL c.(KEVI
25
GANNARAY C(KEV)
1ECHNIQUE
A2
A4
DELTA
REFERENCE
32
3-
1
3-
31
GH
135
.175
(40)
-0.056
(57)
78NOOb
**
32
3-
a
3-
32
GH
135
.184
(351
to.007
143)
76NOOb
l
-.451
113)
1239
ii-
920
9-
319
-0.34
i+ii.-8
(461
-5.21
Itis,-9
(371
-5.20
it5
NsN
ti.73
ft4L,-30)
N.N
-5.54
JG
0.3N
I
,.045
13-
1239
ll-
333
JG
0.3N
-.383
(29)
.052
i5-
1572
13-
391
JG
0,3N
-.407
(26)
.a15
i+
279
JG
279
3+
452
JG
1574
7t
141
JG
i*
204
J6
0 254
a
3+
416
JG
i-
697
GN
0.3N
-.104
(10
-.a22
1281
r-7
I
77SLOi
J
77SLOi
J
77SL
414)
+0.049(+61,-47)
t
77OAOb
i
77SLOl
(+54,-s
J
NsN
t1.7
77OAOb
f
N+N
to.59
(12)
770606
t
to.575 to.093
(25) (101
7bAVOl AVLRA6E
* I
*a.562
(15)
76AVOl
t
14&2
IbJ
(15)
.01a
(5)
2339
01
209
2600
13s
1658
13,
992
JG
LI,AZN
.270
(451
-0.04
I
4J
760El7
a1
209
2741
t5+
1608
13,
1133
JO
LI,APN
-.a15
(55)
*0.14
I
4)
78BEl7
RN
219
5t
269
E AG E At At
L/L 5653 L/L 5653 5603
.195
(45)
.a55
(48)
l 131 .185
(171 (4)
,507 -.a09
(22) IbJ
E At
L/L 5709
.585
(120)
.040
At
5709
.535
(120l
P4 223 R4 223
334
334
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3,
3+
5-
a
0
30
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3+
1775
GN
334
354
575
-.a53
257
575
01
770406
P3
269
7-
0
(l.sl
-.a12
0.15
-.a35
*
-5.22 0.07 -5.24 -0.24 -0.24
l 4) t 4) I 71 ( 2) ( 11 ( 1)
(601
0,65 to.65
(65)
*a.14
75OA06 7ODAO6
7OKROl 75KROl
4' l* l *
*a
74RXllS AVERAGE
l * *a
(101 (10)
71BR28 72UE16
** l*
ILOI
72HEl6
l*
t New value which does not change previous average * New value which changes previous average ** New value which replaces previous incorrect value
76
Atomic
Data rind Nuclear
Data Tables.
Vol. 25. No. 1. Januaty
1960
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December “‘Y
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56Pir(l
568011 60Bo17
6 lHe09
61Sal3 615111 63Bhll 63Co28 631~02
63St09 637402
65Ev05
65Ea34 66Bell 66EgOl 66Pt02
6 66025 66ltlZZ
67Ba17 67BeY7 676106 67Gu17 675006
67Wa02 60Bi03
(1961) 3.14~hr
Isoaeric Level in Y9Q R.Jambunathan, %R.Gunye - Phys.Rev. 12U, 178 (1961) B.Saraf, Directional Correlaticn of Gamma Transitions it? Promethium-147 L.Kald, K.E.Nysten, E-Spring - Soc.Sci.Pennica, 1. Siuons, U.Brenner, Comsentationes Phys,Bath 26, No.6 (196 1) Angular Correlations of Gamma-Gamma Cascades in Pbzoa R.Bhattacharyya, S.Shastry - Indian J.Phys. 37, 357 (1963) E2-Ml Nixing in the 100 keV Transition in. Prl** W.C.Cobb - Phys.Rev. 132, 1693 (1963) Spins of Excited States of Tl*ea from the Alpha-Gaaaa Angular Correlations T.Iwashita, T.Inamura, y.Ikemoto, S.Kageyaaa - J.Phys.Soc.Japan 18, 1358 (1963) Decay Of Gel** K.M.Stautberg, E.Brooks Shera, A.J.CaSper - Phys.Bev. 130. 1901 (1963) Angular Correlations of Cascade Gamma Rays in the Decay of Lulve W.Zuk, S.Gustafsson - Arkiv Pysik 24, 69(1963) Gamma-Gamma AngUlar Correlation and Intensity Ueasurenents on Lou Energy Gamma Bays in the Decay of Ce-144 J.S.Evans. R.A.Eaumann - Phys.Rev. 138, BlO17 (1965); Erratum Phys.Rev. 139, LB4 Decay
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13.
193
The Angular
(1968)
Distributions
of Gamma Rays Following
77
(a,n)
Atomic
and (p,n)
Data and Nuclear
Reactions
Data Tables,
Vol. 25, No. 1, January
lee0
K. S. KRANE
E2, hf1 Mixing Ratios, Supplement and Corrections, December 1979
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lKi29
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a*zTb
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Atomic
Data and Nuclear
Data Tables. Vol. 25. No. 1, January
1980
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
K. S. KRANE
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1
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Spectroscopic Investigations R.A,Voinova# D.N.Kaminker, Electric Uonopole Component A. r. Abdaratakov, n.Buaxinski, T.ll.Wminov, n.Sabotovich, 20,
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75SC38 75we22 76A109
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Atomic
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Vol. 25. No. 1, January
1980
K. S.KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
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77st32
77Ta10
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State
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Properties of the 635.4 keV Level in ItlTrn V.V.Babenko, I.I.Vishnevskii, V.A.Zheltonoxhskii, Izv.Akad.l?auk SSSR, Ser.Piz. 42, 84 (1978); 100.1,
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78Br25
Electromagnetic Properties of Particle-Vibration B.A.Brown, O.RaUSSer, T.Faestermann, D.lard, A306,
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78Du04
78EgOl 78EgO2
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786108
in -
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(1978)
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Vol. 25. No. 1, January
1980
K.S.KRANE
E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
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Vol. 25. No. 1. January
1980
K. S. KRANE
E2, Ml Mixing Ratios, Supplement and Corrections,
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79Deo3 79De12
79De37
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Vol. 25, No. 1. January
1980
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E2, Ml Mixing Ratios, Supplement and Corrections, December 1979
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