78KR 78RB EC DECAY (5.74 M) 1981BA40,1995GI13 09NDS 200910
78KR H TYP=FUL$AUT=AMEENAH R. FARHAN, BALRAJ SINGH$CIT=NDS 110, 1917 (2009)$
78KR2 H CUT=30-Jun-2009$
78KR C 1981BA40 (ALSO 1975BAWR THESIS): MEASURED EG, IG, GG, IB, BG, T1/2.
78KR2C The data in 1981Ba40 are superior to those in author's earlier work
78KR3C 1975BaWR since 78KR target enrichment was 99% as compared to 50%
78KR4C in the 1975 work.
78KR C 1980BAZO IS SUPERSEDED BY 1981BA40
78KR C 1995Gi13: Conversion electron spectra. Deduced EKC's for several
78KR2C transitions and observed E0 transition from 0+ state at 1017 KEV.
78KR C 1999SU02: MAIN STUDY WAS IN-BEAM G-RAYS IN 78KR, BUT THE 58NI+23NA
78KR2C REACTION USED IN THIS STUDY POPULATED 78RB ALSO STRONGLY THROUGH 2PN
78KR3C CHANNEL, THUS SOME OF THE G RAYS AND LEVELS LISTED BY 1999SU02 COULD
78KR4C BE POPULATED FROM 78RB EC DECAY, MAINLY FROM 4(-) ISOMER AND LESS SO
78KR5C FROM 0(+) ISOMER. HOWEVER, NO SEPARATE DECAY DATA WERE LISTED BY
78KR6C 1999SU02
78KR C Others: 1979He18, 1975We23, 1974Sa32, 1973Ba03, 1973Br32, 1972No14,
78KR2C 1972LiZL, 1972Ar10, 1971Do01, 1969Ch18, 1968To05.
78KR C In the high-spin study of 1984Hi08, main activity formed
78KR2C was 5.74-M 78RB as suggested by RI(455)/RI(664)=100/48.5 and non-
78KR3C observation of 562|g
78KR C Two activities (5.74 MIN and 17.66 MIN) of 78RB were
78KR2C identified by most of the authors, but only 1981Ba40 and
78KR3C 1972No14 proposed separate decay schemes.
78KR C A 4.2-min isomer suggested by 1971Do01 was proven to be nonexistent
78KR2C by 1972De54
78KR c All data given here are from 1981Ba40 unless otherwise stated.
78KR c Measured conversion coefficients are from 1995Gi13
78KR c Total decay energy of 6616 keV {I50} calculated (by RADLIST code)
78KR2c from level scheme agrees with the expected value of 6619 keV {I150}
78KR CE $ B+ radiation studied 1981Ba40, 1979ReZW, 1976DaYR, 1975BaWR
78KR2CE and 1975We23.
78KR CE TI$Because of the large Q value, and the consequent likelihood
78KR2CE of a large number of unobserved transitions, the feedings with
78KR3CE intensity less than a few percent should be considered tentative
78KR cG $ Intensity of annihilation radiation=197 {I3} (1981Ba40),
78KR2cG relative to 100 for 455|g
78KR CG M$ From measured EKC values of 1995Gi13, some of the EKC values
78KR2CG are measured in the decay of 17.66-min activity of 78RB
78KR CL E$From least-squares fit to EG's. The doubly-placed 1852.55|g from
78KR2CL 2999 level was omitted from the fitting procedure as its inclusion
78KR3CL resulted in a normalized |h{+2}=3.6
78KR CL J$From 'adopted levels'
78KR CL E(A)$ IF J(4008)=1, POPULATION OF THIS LEVEL FROM 4(-) PARENT STATE IS
78KR2CL SUSPECT (EVALUATORS)
78RB P 111.19 22 4(-) 5.74 M 3 7243 8
78RB CP QP$ from 2009AuZZ, 2003Au03
78KR N 0.90 2 0.91 2 1.11
78KR PN 3
78KR CN NR$from G-ray intensity balance at each level. Decay through
78KR2CN isomeric transition was taken as 9% 2 (based on IG(103G)).
78KR3CN I(G+-)/I(454G)=1.97 3
78KR L 0.0 0+
78KR L 455.03 3 2+
78KR G 454.99 5 100.0 E2 0.00428 C
78KRS G KC=0.00378 6$LC=0.000421 6$MC=6.81E-5 10$NC+=6.75E-6 10
78KRS G NC=6.75E-6 10
78KR L 1017.20 5 0+
78KR G 562.15 5 0.35 10E2 0.00225 C
78KRS G KC=0.00199 3$LC=0.000219 3$MC=3.54E-5 5$NC+=3.53E-6 5
78KRS G NC=3.53E-6 5
78KR L 1119.47 4 4+
78KR E 13.0 7 0.131 7 6.89 3 13.1 7
78KRS E EAV=2417.2 39$CK=0.00880 4$CL=0.001016 5$CM+=0.0002084 1
78KR G 664.42 5 47.3 5 E2 1.40E-3 C
78KRS G KC=0.001240 18$LC=0.0001350 19$MC=2.18E-5 3$NC+=2.19E-6 3
78KRS G NC=2.19E-6 3
78KR CG $(664G)(455G)(THETA): A2=+0.11 4, A4=+0.03 7 (1974Sa32);
78KR2CG consistent with J=3, 4 for 1119 level
78KR L 1147.90 4 2+
78KR E 0.6 4 0.01 1 10.1 3 0.6 4 1U?
78KRS E EAV=2404.6 39$CK=0.01943 10$CL=0.002252 11$CM+=0.0004623 2
78KR G 692.88 5 15.13 17M1+E2 +0.45 10 1.06E-32 C
78KRS G KC=0.000941 19$LC=0.0001006 21$MC=1.63E-5 4$NC+=1.64E-6 4
78KRS G NC=1.64E-6 4
78KR G 1147.87 5 9.57 15 C
78KR L 1564.76 4 3+
78KR E 5.4 4 0.072 5 7.09 4 5.5 4
78KRS E EAV=2201.4 39$CK=0.01143 6$CL=0.001320 7$CM+=0.0002708 1
78KR G 416.77 5 2.82 12 C
78KR G 445.28 5 0.85 5 C
78KR G 1109.72 5 16.17 25 C
78KR L 1755.85 4 2+
78KR E 1.38 14 0.047 5 9.33 5 1.43 14 1U
78KRS E EAV=2114.3 39$CK=0.02854 16$CL=0.003311 18$CM+=0.000680 4
78KR G 607.94 8 0.04 2
78KR G 636.27 10 0.11 3
78KR G 738.66 5 0.47 7 C
78KR G 1300.83 5 0.93 13M1+E2 -1.32 +12-553.00E-4 C
78KRS G KC=0.000244 4$LC=2.58E-5 4$MC=4.17E-6 6$NC+=2.60E-5 10
78KRS G NC=4.22E-7 6$IPC=2.55E-5 10
78KR G 1755.94 10 0.24 5
78KR L 1772.93 4 (1,2)+
78KR E 0.89 6 0.013 1 7.79 3 0.90 6
78KRS E EAV=2100.7 39$CK=0.01303 7$CL=0.001504 8$CM+=0.0003086 1
78KR G 1317.90 5 0.89 5 M1,E2 2.94E-48 C
78KR2 G EKC=0.00021 7
78KRS G KC=0.000237 4$LC=2.50E-5 5$MC=4.04E-6 8$NC+=2.9E-5 4
78KRS G NC=4.09E-7 8$IPC=2.8E-5 4
78KR G 1772.89 5 0.21 4
78KR L 1872.92 5 4+
78KR E 4.1 4 0.066 6 7.08 5 4.2 4
78KRS E EAV=2052.5 39$CK=0.01390 8$CL=0.001605 9$CM+=0.0003293 1
78KR G 725.06 8 7.70 22E2 1.10E-3 C
78KRS G KC=0.000980 14$LC=0.0001061 15$MC=1.717E-5 24$NC+=1.722E-6 25
78KRS G NC=1.722E-6 25
78KR G 753.37 8 4.81 12E2+M1 +3.2 +23-129.85E-422 C
78KR2 G EKC=0.000889 22
78KRS G KC=0.000874 19$LC=9.44E-5 22$MC=1.53E-5 4$NC+=1.53E-6 4
78KRS G NC=1.53E-6 4
78KR G 1417.90 8 1.17 7 E2 2.88E-4 C
78KR2 G EKC=0.00019 4
78KRS G KC=0.000205 3$LC=2.17E-5 3$MC=3.51E-6 5$NC+=5.78E-5 8
78KRS G NC=3.55E-7 5$IPC=5.75E-5 8
78KR L 1977.81 8 6+
78KR E 0.84 9 0.033 3 9.41 5 0.87 9 1U
78KRS E EAV=2008.7 38$CK=0.03327 19$CL=0.003860 22$CM+=0.000793 5
78KR G 858.33 10 2.47 7 E2 7.16E-4 C
78KRS G KC=0.000635 9$LC=6.83E-5 10$MC=1.105E-5 16$NC+=1.111E-6 16
78KRS G NC=1.111E-6 16
78KR L 2007.31 13 ?
78KR L 2234.16 6 (0:4)+
78KR E 0.93 5 0.019 1 7.56 3 0.95 5
78KRS E EAV=1878.5 39$CK=0.01778 11$CL=0.002054 12$CM+=0.0004215 2
78KR G 1779.11 5 1.16 4 M1,E2 3.35E-418 C
78KR2 G EKC=0.00015 4
78KRS G KC=0.0001312 19$LC=1.377E-5 20$MC=2.23E-6 4$NC+=0.000188 17
78KRS G NC=2.26E-7 4$IPC=0.000187 17
78KR L 2240.69 5 (1,2)+
78KR E 0.43 6 0.0090 12 7.89 6 0.44 6
78KRS E EAV=1875.4 39$CK=0.01787 11$CL=0.002064 12$CM+=0.0004235 2
78KR G 675.89 9 0.08 2
78KR G 1785.55 12 0.19 4
78KR G 2240.69 7 0.31 5
78KR L 2299.77 6 5+
78KR E 2.15 12 0.047 3 7.16 3 2.20 12
78KRS E EAV=1847.0 39$CK=0.01864 11$CL=0.002153 13$CM+=0.000442 3
78KR G 734.98 5 1.83 10E2 1.07E-3 C
78KRS G KC=0.000945 14$LC=0.0001023 15$MC=1.655E-5 24$NC+=1.660E-6 24
78KRS G NC=1.660E-6 24
78KR G 1180.35 7 0.86 4 E2+M1 +2 1 3.44E-47 C
78KR2 G EKC=0.00030 5
78KRS G KC=0.000301 6$LC=3.19E-5 6$MC=5.16E-6 10$NC+=6.0E-6 5
78KRS G NC=5.21E-7 10$IPC=5.4E-6 5
78KR L 2399.02 5 3-
78KR E 3.12 22 0.073 5 6.95 4 3.19 23
78KRS E EAV=1799.4 39$CK=0.02004 12$CL=0.002315 14$CM+=0.000475 3
78KR G 1943.97 5 8.33 20 C
78KR L 2413.44 11 2+,3+,4+
78KR E 1.89 10 0.0445 24 7.16 3 1.93 10
78KRS E EAV=1792.4 39$CK=0.02026 12$CL=0.002340 14$CM+=0.000480 3
78KR G 848.58 15 0.81 6 M1,E2 0.000705 C
78KR2 G EKC=0.00066 17
78KRS G KC=0.00062 4$LC=6.6E-5 5$MC=1.07E-5 7$NC+=1.08E-6 7
78KRS G NC=1.08E-6 7
78KR G 1265.63 15 1.54 7 M1,E2 3.07E-48 C
78KR2 G EKC=0.000240 14
78KRS G KC=0.000257 5$LC=2.72E-5 6$MC=4.40E-6 9$NC+=1.82E-5 24
78KRS G NC=4.45E-7 9$IPC=1.77E-5 24
78KR L 2443.37 5 (1,2)+
78KR E 0.16 4 0.0038 9 8.23 11 0.16 4
78KRS E EAV=1778.1 39$CK=0.02072 13$CL=0.002393 15$CM+=0.000491 3
78KR G 687.55 8 0.04 2 E2,M1 0.0011612
78KRS G KC=0.00103 11$LC=0.000110 13$MC=1.79E-5 20$NC+=1.80E-6 19
78KRS G NC=1.80E-6 19
78KR G 1295.45 8 0.04 2 M1,E2 2.99E-48
78KRS G KC=0.000245 5$LC=2.59E-5 5$MC=4.19E-6 9$NC+=2.4E-5 3
78KRS G NC=4.24E-7 8$IPC=2.4E-5 3
78KR G 1988.20 15 0.06 3 M1,E2 4.01E-423
78KRS G KC=0.0001066 15$LC=1.118E-5 16$MC=1.81E-6 3$NC+=0.000282 22
78KRS G NC=1.83E-7 3$IPC=0.000282 22
78KR G 2443.32 8 0.05 2
78KR L 2508.02 9
78KR E 0.096 24 0.0024 6 8.41 12 0.098 25
78KRS E EAV=1747.1 39$CK=0.02175 14$CL=0.002513 16$CM+=0.000516 4
78KR G 2052.96 8 0.12 3
78KR L 2573.34 7 1-,2-,3-
78KR E 1.38 12 0.037 3 7.21 4 1.42 12
78KRS E EAV=1715.8 39$CK=0.02287 15$CL=0.002642 17$CM+=0.000542 4
78KR G 1425.56 14 0.75 7 E1 3.06E-4 C
78KR2 G EKC=0.00011 3
78KRS G KC=0.0001005 14$LC=1.051E-5 15$MC=1.698E-6 24$NC+=0.000193 3
78KRS G NC=1.720E-7 24$IPC=0.000193 3
78KR G 2118.28 8 2.06 10 C
78KR L 2677.64 9 3-
78KR E 2.66 12 0.077 4 6.87 2 2.74 12
78KRS E EAV=1665.9 39$CK=0.02481 16$CL=0.002867 19$CM+=0.000588 4
78KR G 1529.81 12 2.19 6 E1 3.72E-4 C
78KR2 G EKC=0.000085 23
78KRS G KC=8.94E-5 13$LC=9.34E-6 13$MC=1.509E-6 22$NC+=0.000272 4
78KRS G NC=1.528E-7 22$IPC=0.000272 4
78KR G 2222.49 12 1.15 7 C
78KR L 2749.76 7 5-
78KR E 4.29 19 0.132 6 6.63 2 4.42 20
78KRS E EAV=1631.5 39$CK=0.02629 17$CL=0.003038 20$CM+=0.000624 4
78KR G 771.95 7 0.54 5 C
78KR G 1630.28 6 6.12 15 C
78KR L 2764.10 5 (4)-
78KR E 12.0 5 0.376 16 6.17 2 12.4 5
78KRS E EAV=1624.7 39$CK=0.02660 18$CL=0.003074 20$CM+=0.000631 5
78KR G 1199.33 5 8.3 2 E1 1.97E-4 @C
78KR2 G EKC=0.000132 5
78KRS G KC=0.0001357 19$LC=1.421E-5 20$MC=2.30E-6 4$NC+=4.50E-5 7
78KRS G NC=2.33E-7 4$IPC=4.48E-5 7
78KR CG RI$ TWO PLACEMENTS AND INTENSITY DIVISION BASED ON IN-BEAM G-RAY DATA
78KR2CG OF 1999SU02 IN 58NI(23NA,3PG) REACTION. 1981BA40 PROPOSED ONLY THE
78KR3CG PLACEMENT FROM 2764 LEVEL. TOTAL RI=8.89 20 (1981BA40). PLACEMENT
78KR4CG FROM 3774 LEVEL PROPOSED BY 1999SU02 IS NOT CONSISTENT WITH
78KR5CG LEVEL-ENERGY DIFFERENCE, THUS IT IS NOT INCLUDED HERE
78KR G 1644.61 5 8.76 20E1 4.53E-4 C
78KR2 G EKC=0.000083 7
78KRS G KC=7.95E-5 12$LC=8.29E-6 12$MC=1.341E-6 19$NC+=0.000364 5
78KRS G NC=1.358E-7 19$IPC=0.000364 5
78KR L 2882.07 9 3-
78KR E 0.81 9 0.028 3 7.27 5 0.84 9
78KRS E EAV=1568.4 39$CK=0.02932 20$CL=0.003389 23$CM+=0.000695 5
78KR G 2427.00 8 1.03 10 C
78KR L 2992.54 7
78KR E 0.19 3 0.0073 11 7.83 7 0.20 3
78KRS E EAV=1515.8 38$CK=0.03221 23$CL=0.00372 3$CM+=0.000764 6
78KR G 1844.66 7 0.15 3
78KR G 2537.37 11 0.10 2
78KR L 2999.36 8 3-
78KR E 2.38 18 0.091 7 6.74 4 2.47 19
78KRS E EAV=1512.6 38$CK=0.03240 23$CL=0.00375 3$CM+=0.000769 6
78KR G 1852.55 12 1.3 2 @
78KRF G FL=1147.90
78KR G 1879.87 7 1.71 7 E1 6.12E-4 C
78KR2 G EKC=0.00007 3
78KRS G KC=6.44E-5 9$LC=6.71E-6 10$MC=1.085E-6 16$NC+=0.000540 8
78KRS G NC=1.100E-7 16$IPC=0.000540 8
78KR L 3064.61 11 (5)-
78KR E 0.68 5 0.028 2 7.24 4 0.71 5
78KRS E EAV=1481.5 38$CK=0.03430 25$CL=0.00397 3$CM+=0.000814 6
78KR G 1086.79 7 0.87 5 E1 1.82E-4 C
78KR2 G EKC=0.00016 3
78KRS G KC=0.0001624 23$LC=1.704E-5 24$MC=2.75E-6 4$NC+=2.79E-7 4
78KRS G NC=2.79E-7 4
78KR L 3072.32 6 (5-)
78KR E 2.14 9 0.088 4 6.74 2 2.23 9
78KRS E EAV=1477.9 38$CK=0.03453 25$CL=0.00399 3$CM+=0.000819 6
78KR G 1199.33 5 0.6 AP @
78KR G 1952.91 6 2.12 7 C
78KR L 3105.37 7 3-,4-,5-
78KR E 2.77 15 0.117 7 6.61 3 2.89 16
78KRS E EAV=1462.2 38$CK=0.0356 3$CL=0.00411 3$CM+=0.000844 6
78KR G 341.26 7 1.88 15M1 0.00531 C
78KR2 G EKC=0.0051 6
78KRS G KC=0.00471 7$LC=0.000509 8$MC=8.25E-5 12$NC+=8.32E-6 12
78KRS G NC=8.32E-6 12
78KR G 1232.44 7 1.64 4 E1 2.11E-4 C
78KR2 G EKC=0.000131 10
78KRS G KC=0.0001292 18$LC=1.354E-5 19$MC=2.19E-6 3$NC+=6.61E-5 10
78KRS G NC=2.21E-7 4$IPC=6.59E-5 10
78KR L 3161.18 6 3-
78KR E 4.46 19 0.199 9 6.37 2 4.66 20
78KRS E EAV=1435.7 38$CK=0.0374 3$CL=0.00432 4$CM+=0.000887 7
78KR G 1288.45 15 0.71 7 E1 2.38E-4 C
78KR2 G EKC=0.000146 17
78KRS G KC=0.0001195 17$LC=1.251E-5 18$MC=2.02E-6 3$NC+=0.0001043 15
78KRS G NC=2.05E-7 3$IPC=0.0001041 15
78KR G 2013.25 6 3.88 13E1 7.01E-4 C
78KR2 G EKC=0.000054 7
78KRS G KC=5.80E-5 9$LC=6.05E-6 9$MC=9.77E-7 14$NC+=0.000636 9
78KRS G NC=9.90E-8 14$IPC=0.000636 9
78KR G 2041.52 15 1.10 5 C
78KR L 3233.55 6 3-,4-
78KR E 2.31 11 0.110 6 6.61 3 2.42 12
78KRS E EAV=1401.4 38$CK=0.0400 3$CL=0.00462 4$CM+=0.000948 7
78KR G 1360.63 7 0.77 5 E1 2.73E-4 C
78KR2 G EKC=0.000062 23
78KRS G KC=0.0001087 16$LC=1.138E-5 16$MC=1.84E-6 3$NC+=0.0001510 22
78KRS G NC=1.86E-7 3$IPC=0.0001509 22
78KR G 1668.61 15 1.16 7 E1 4.70E-4 C
78KR2 G EKC=0.00008 4
78KRS G KC=7.76E-5 11$LC=8.10E-6 12$MC=1.310E-6 19$NC+=0.000383 6
78KRS G NC=1.327E-7 19$IPC=0.000383 6
78KR G 2114.07 7 1.02 6 E1 7.67E-4 C
78KR2 G EKC=0.000053 7
78KRS G KC=5.40E-5 8$LC=5.62E-6 8$MC=9.08E-7 13$NC+=0.000707 10
78KRS G NC=9.20E-8 13$IPC=0.000707 10
78KR L 3361.14 11 4-,5-,6-
78KR E 0.98 8 0.053 4 6.90 4 1.03 8
78KRS E EAV=1341.0 38$CK=0.0451 4$CL=0.00521 4$CM+=0.001070 9
78KR G 611.37 8 1.26 8 M1 1.35E-3 C
78KR2 G EKC=0.00121 5
78KRS G KC=0.001201 17$LC=0.0001281 18$MC=2.07E-5 3$NC+=2.10E-6 3
78KRS G NC=2.10E-6 3
78KR L 3669.22 7 3-,4-
78KR E 3.35 16 0.252 12 6.15 3 3.60 17
78KRS E EAV=1195.9 38$CK=0.0615 6$CL=0.00712 6$CM+=0.001461 13
78KR G 1096.02 15 1.08 5 M1,E2 3.92E-411 C
78KR2 G EKC=0.00033 3
78KRS G KC=0.000349 10$LC=3.70E-5 12$MC=5.98E-6 19$NC+=6.05E-7 18
78KRS G NC=6.05E-7 18
78KR G 1270.17 6 1.67 7 M1 3.00E-4 C
78KR2 G EKC=0.000238 14
78KRS G KC=0.000252 4$LC=2.66E-5 4$MC=4.30E-6 6$NC+=1.660E-5 24
78KRS G NC=4.36E-7 7$IPC=1.616E-5 23
78KR G 1796.25 9 1.65 12 C
78KR L 3725.49 6 3+,4+
78KR E 2.89 19 0.232 15 6.17 3 3.12 20
78KRS E EAV=1169.5 38$CK=0.0653 6$CL=0.00756 7$CM+=0.001552 14
78KR G 1326.48 9 0.49 6 E1 2.57E-4 C
78KR2 G EKC=0.000130 26
78KRS G KC=0.0001136 16$LC=1.189E-5 17$MC=1.92E-6 3$NC+=0.0001294 19
78KRS G NC=1.95E-7 3$IPC=0.0001292 18
78KR G 1852.55 6 2.5 2 (M1,E2) 3.56E-420 @C
78KR2 G EKC=0.000117 21
78KRS G KC=0.0001216 18$LC=1.275E-5 19$MC=2.06E-6 3$NC+=0.000220 19
78KRS G NC=2.09E-7 3$IPC=0.000220 19
78KR CG RI$ TWO PLACEMENTS AND INTENSITY DIVISION BASED ON IN-BEAM G-RAY DATA
78KR2CG OF 1999SU02 IN 58NI(23NA,3PG) REACTION. 1981BA40 PROPOSED ONLY THE
78KR3CG PLACEMENT FROM 3725 LEVEL. TOTAL RI=3.77 25 (1981BA40).
78KR G 3270.35 9 0.82 5 C
78KR L 3749.15 10 (3,4,5-)
78KR E 0.57 6 0.047 5 6.86 5 0.62 6
78KRS E EAV=1158.4 38$CK=0.0670 6$CL=0.00776 7$CM+=0.001592 14
78KR G 1350.11 8 0.76 7 C
78KR L 3774.61 5 (3)-
78KR E 8.8 4 0.75 3 5.65 2 9.6 4
78KRS E EAV=1146.5 38$CK=0.0689 6$CL=0.00797 7$CM+=0.001637 15
78KR G 1375.61 12 1.51 7 M1,E2 2.85E-48 C
78KR2 G EKC=0.000193 12
78KRS G KC=0.000217 4$LC=2.29E-5 4$MC=3.70E-6 7$NC+=4.1E-5 5
78KRS G NC=3.75E-7 7$IPC=4.1E-5 5
78KR G 1901.79 15 0.74 5 C
78KR G 2209.76 8 0.98 7 C
78KR G 2626.86 13 3.51 13 C
78KR G 2654.97 12 1.44 6 C
78KR G 3319.50 7 3.57 11 C
78KR L 4007.79 6 (1) A ?
78KR E 0.17 4 0.019 4 7.2 1 0.19 4 ?
78KRS E EAV=1037.6 38$CK=0.0898 9$CL=0.01040 10$CM+=0.002135 21
78KR CE TI,LOGFT$ TOO LOW FOR DJ=3. THE APPARENT SMALL FEEDING IS PROBABLY DUE
78KR2CE EITHER TO UNOBSERVED G RAYS FROM HIGHER LEVELS OR TO IMPROPER DIVISION
78KR3CE OF G-RAY INTENSITIES BETWEEN THE TWO ACTIVITIES OF 78RB
78KR G 1767.05 8 0.04 2
78KR G 2000.45 12 0.02 1
78KR G 2990.38 12 0.08 3
78KR G 3552.70 9 0.06 2
78KR G 4007.77 9 0.03 1