137PR 137ND EC DECAY 1975KL02,1973BU18 07NDS 200709
137PR H TYP=FUL$AUT=E. BROWNE, J. K. TULI$CIT=NDS 108,2173 (2007)$
137PR2 H CUT=1-Oct-2006$
137PR D Significantly modified by E. Browne. ICC from BRICC. New normalization
137PR2D New G-ray intensity balance. Log ft's have been
137PR3D recalculated (Feb 5, 2007).
137PR C Measured: G, CE, GG (1975Kl02,1973Bu18), B+ (1973Bu18), GCE (1980ZhZY)
137PR2C CEG(T) (1973Bu18)
137PR C Decay scheme is that proposed by 1975Kl02.
137PR C 1973Bu18 measured two B+ components with E(B+)=2400 40 and 1700 30
137PR2C respectively. Q(B+)=3485 30 if 2400B{++} feeds the 75.5-keV level,
137PR3C and 1700B{++} the 761-keV level. EB{++}=2590 60 (1983AlZP)
137PR CE EC+B feedings have been determined from the assumption of no
137PR2CE direct feeding to GS (1975Kl02)
137PR CG EKC normalized so that KC(581)=0.01 (M1) (1975Kl02)
137PR CG E$G rays placed in the decay scheme are from 1975Kl02;
137PR2CG unplaced G rays are from 1973Bu18, except 540G, 1791G, and
137PR3CG G rays with EG GE 2570.5, which are from 1975Kl02.
137PR CG E(A) Observed by 1975Kl02 and 1973Bu18
137PR CG E(B) May depopulate the 2044.6-keV level.
137PR CG E(D) May depopulate the 1968.9-keV level.
137PR CL J From Adopted Levels
137ND P 0.0 1/2+ 38.5 M 15 3597 16
137PR N 0.130 11 1.00
137PR CN NR from SUMOF TI to GS=100
137PR PN 3
137PR G 110.8 32 LE
137PR CG E from 1975Kl02
137PR G 148.96 361.1 3
137PR G 170.20 450.7 5
137PR G 227.82 301.6 4
137PR G 245.38 460.6 2
137PR G 251.96 340.9 2
137PR G 257.99 411.2 4
137PR G 317.59 280.9 3
137PR G 323.21 420.9 3
137PR G 325.49 300.8 3
137PR G 327.06 320.8 3
137PR G 360.98 361.5 3 A
137PR G 384.53 340.9 3
137PR G 386.15 420.9 3
137PR G 395.02 410.8 3
137PR G 494.52 250.8 2
137PR G 540.7 52.0 LE
137PR G 576.42 282.5 2
137PR G 598.14 202.3 5 A
137PR G 631.73 280.40 15
137PR G 635.04 300.46 15
137PR G 637.61 280.79 25
137PR G 644.42 300.7 2
137PR G 646.82 320.9 3
137PR G 653.92 400.4 LT
137PR G 661.15 300.8 2
137PR G 678.13 300.8 3
137PR G 696.79 32
137PR G 708.35 300.4 LT
137PR G 711.48 270.7 2
137PR G 727.02 300.6 2
137PR G 748.03 300.9 3
137PR G 776.32 271.1 4
137PR G 797.38 320.5 2
137PR G 799.77 300.6 2
137PR G 811.39 350.7 2
137PR G 814.48 451.3 4 A
137PR G 847.69 390.6 2
137PR G 849.49 420.4 2
137PR G 860.17 301.6 5
137PR G 879.75 320.8 2
137PR G 940.07 290.7 2
137PR G 942.89 320.81 22
137PR G 967.23 360.6 2
137PR G 971.12 350.7 2
137PR G 1029.58 321.2 4
137PR G 1048.22 290.7 3
137PR G 1116.71 320.7 2
137PR G 1166.78 481.0 3
137PR G 1176.14 361.0 3
137PR G 1182.05 460.8 2
137PR G 1191.09 470.6 2
137PR G 1204.31 290.7 2
137PR G 1213.08 351.0 3
137PR G 1253.48 320.5 2
137PR G 1256.52 321.4 5
137PR G 1262.95 420.6 2
137PR G 1268.02 430.7 2
137PR G 1320.12 420.7 2
137PR G 1340.44 360.6 2
137PR G 1351.22 370.8 3
137PR G 1372.24 450.7 2
137PR G 1409.66 380.9 3
137PR G 1434.04 421.3 4
137PR G 1443.96 420.85 25
137PR G 1472.28 360.7 2
137PR G 1493.44 360.9 4
137PR G 1542.50 390.7 2
137PR G 1551.67 480.5 2
137PR G 1574.50 420.8 3
137PR G 1607.76 321.3 4 A
137PR G 1646.50 701.3 5
137PR G 1700.61 400.8 2
137PR G 1764.92 402.3 4
137PR G 1769.69 422.5 8 A
137PR G 1779.51 390.9 3
137PR G 1791.3 50.5 LE
137PR G 1845.57 240.6 2
137PR G 1893.82 312.5 8 A
137PR G 1964.53 460.80 20
137PR G 1999.66 460.6 2 A
137PR G 2091.19 500.5 2
137PR G 2205.12 500.4 2
137PR G 2570.5 50.3 LE
137PR G 2639.5 100.3 LE
137PR G 2753.8 100.1 LE
137PR G 2801.0 100.1 LE
137PR G 2831.0 100.1 LE
137PR L 0.0 5/2+ 1.28 H 3
137PR L 75.44 63/2+ 0.38 NS 3
137PR E 3422 40 13 5 11 4 6.2 2 24 9
137PRS E EAV=1128 8 $CK=0.395 5 $CL=0.0552 6 $CM+=0.01562 17
137PR G 75.5 1 133 15M1+E2 0.2 1 3.02 14
137PR CG %IG=17.2 9, using the calculated normalization.
137PRB G BM1W=0.032 3$BE2W=1.4E+2 14
137PRS G KC=2.48 4$LC=0.43 10$MC=0.092 23$NC+=0.024 6
137PRS G NC=0.020 5$OC=0.0032 7$PC=0.000188 4
137PR CG M ELC=0.36 9 (1975Kl02) gives MR LE 0.2; K/L=4.7 5 (1975Kl02)
137PR2CG gives MR=0.3 5, MR=0.11 2 (1975AlYU)
137PR L 230.51 97/2+
137PR G 230.5 1 10.0 10M1+E2 0.122 5
137PRS G KC=0.100 9$LC=0.018 4$MC=0.0039 8$NC+=0.00100 19
137PRS G NC=0.00086 17$OC=0.000131 21$PC=7.0E-6 13
137PR CG M EKC=0.10 2, K/L=5.9 18
137PR L 313.59 7(5/2+)
137PR E 0.69 18 0.81 22 7.3 1 1.5 4
137PRS E EAV=1020 8 $CK=0.460 5 $CL=0.0643 7 $CM+=0.01822 19
137PR G 238.2 1 27.5 20M1,E2 0.111 6
137PRS G KC=0.091 9$LC=0.016 3$MC=0.0035 7$NC+=0.00089 16
137PRS G NC=0.00077 14$OC=0.000118 17$PC=6.3E-6 12
137PR CG M EKC=0.083 16, K/L=6.4 13
137PR G 313.50 156.0 10M1,E2 0.050 6
137PRS G KC=0.042 7$LC=0.00665 25$MC=0.00142 8$NC+=0.000367 14
137PRS G NC=0.000315 14$OC=4.91E-5 8$PC=3.0E-6 7
137PR CG M EKC=0.034 10
137PR L 382.15 7(3/2,1/2)+ 0.5 NS 2
137PR E 2.3 3 2.9 5 6.7 1 5.2 8
137PRS E EAV=988 8 $CK=0.480 5 $CL=0.0671 7 $CM+=0.01901 19
137PR G 306.60 1578.0 40M1,E2 0.053 6
137PRB G BM1W<0.0019$BE2W<12
137PRS G KC=0.044 7$LC=0.0071 4$MC=0.00152 10$NC+=0.000394 19
137PRS G NC=0.000338 18$OC=5.26E-5 12$PC=3.2E-6 7
137PR CG M EKC=0.053 8, K/L=6.8 10
137PR G 382.00 158.0 10M1,E2 0.029 5
137PRB G BM1W<9.9E-5$BE2W<0.42
137PRS G KC=0.024 5$LC=0.00366 17$MC=0.00078 3$NC+=0.000202 10
137PRS G NC=0.000173 7$OC=2.72E-5 19$PC=1.7E-6 5
137PR CG M EKC=0.023 5, K/L=7.8 39
137PR L 580.63 63/2+
137PR E 7.5 8 13.0 14 6.0 1 20.5 22
137PRS E EAV=898 8 $CK=0.539 5 $CL=0.0756 7 $CM+=0.02141 20
137PR G 198.5 1 5.0 5M1,E2 0.192 4
137PRS G KC=0.154 9$LC=0.030 9$MC=0.0066 19$NC+=0.0017 5
137PRS G NC=0.0014 4$OC=0.00022 6$PC=1.06E-5 18
137PR CG M EKC=0.15 3, K/L=2.8 9
137PR G 267.0 1 7.5 10M1,E2 0.079 7
137PRS G KC=0.065 8$LC=0.0111 13$MC=0.0024 3$NC+=0.00061 7
137PRS G NC=0.00053 7$OC=8.1E-5 7$PC=4.6E-6 10
137PR CG M EKC=0.085 17, K/L=5.4 22
137PR G 350.0 53.0 10
137PR CG M EKC=0.076 30, K/L=5.5 28 for 350.0G+348.5G
137PR G 505.1 370 10M1,E2 0.014 3
137PRS G KC=0.0116 25$LC=0.00166 21$MC=0.00035 4$NC+=9.1E-5 12
137PRS G NC=7.8E-5 10$OC=1.24E-5 18$PC=8.5E-7 22
137PR CG M EKC=0.013 4, K/L=6.8 10
137PR G 580.6 1 100 M1,E2 0.0096 21
137PRS G KC=0.0082 18$LC=0.00114 17$MC=0.00024 4$NC+=6.3E-5 10
137PRS G NC=5.4E-5 8$OC=8.6E-6 14$PC=6.0E-7 15
137PR CG M EKC=0.010 2, M1 was assumed by 1975Kl02, E2 by 1973Bu18
137PR L 724.96 14(5/2+)
137PR E 0.06 LE 0.1 LE 8.0 GE 0.2 LE ?
137PRS E EAV=833 8 $CK=0.584 5 $CL=0.0819 7 $CM+=0.02321 20
137PR G 342.0 52 LE
137PR G 649.4 3 1.5 LEM1+(E2) 0.0073 16
137PRS G KC=0.0062 14$LC=0.00085 14$MC=0.00018 3$NC+=4.7E-5 8
137PRS G NC=4.0E-5 7$OC=6.4E-6 12$PC=4.5E-7 12
137PR CG M EKC=0.011 6
137PR G 724.8 32.0 LE
137PR L 761.52 83/2+
137PR E 2722 30 3.4 5 8.1 12 6.1 1 11.5 17
137PRS E EAV=816 8 $CK=0.595 5 $CL=0.0835 7 $CM+=0.02367 20
137PR G 180.8 51.0 2
137PR G 447.5 51.0 LE
137PR G 531.00 156.0 10(E2) 0.00959
137PRS G KC=0.00800 12$LC=0.001256 18$MC=0.000268 4$NC+=6.91E-5 10
137PRS G NC=5.93E-5 9$OC=9.25E-6 13$PC=5.59E-7 8
137PR CG M EKC=0.007 3
137PR G 686.1 1 14.0 20E2+(M1) 0.0064 14
137PRS G KC=0.0054 12$LC=0.00074 13$MC=0.00016 3$NC+=4.1E-5 7
137PRS G NC=3.5E-5 6$OC=5.6E-6 10$PC=4.0E-7 10
137PR CG M EKC=0.004 1
137PR G 761.6 2 70 10M1,E2 0.0050 11
137PRS G KC=0.0042 10$LC=0.00057 10$MC=0.000120 21$NC+=3.1E-5 6
137PRS G NC=2.7E-5 5$OC=4.3E-6 8$PC=3.1E-7 8
137PR CG M EKC=0.0045 7, K/L=7.5 11
137PR L 857.00 8(1/2)+
137PR E 2.8 4 8.0 11 6.1 1 10.8 15
137PRS E EAV=774 8 $CK=0.624 5 $CL=0.0877 7 $CM+=0.02486 20
137PR G 276.3 1 5.0 8M1+(E2) 0.072 7
137PRS G KC=0.059 8$LC=0.0099 10$MC=0.00213 24$NC+=0.00055 6
137PRS G NC=0.00047 5$OC=7.3E-5 5$PC=4.2E-6 9
137PR CG M EKC=0.089 18, K/L=3.6 15
137PR G 474.90 159.0 15M1+(E2) 0.016 4
137PRS G KC=0.014 3$LC=0.00197 22$MC=0.00042 5$NC+=0.000108 12
137PRS G NC=9.3E-5 10$OC=1.47E-5 19$PC=9.9E-7 25
137PR CG M EKC=0.016 2, K/L=8.4 33
137PR G 781.6 1 73.0 80M1+(E2) 0.0047 10
137PRS G KC=0.0040 9$LC=0.00054 10$MC=0.000113 20$NC+=3.0E-5 6
137PRS G NC=2.5E-5 5$OC=4.0E-6 8$PC=2.9E-7 7
137PR CG M EKC=0.0046 7, K/L=6.7 10
137PR G 857.0 21.8 LE
137PR L 929.16 8(3/2+)
137PR E 1.1 1 3.6 5 6.4 1 4.7 6
137PRS E EAV=741 8 $CK=0.646 5 $CL=0.0908 7 $CM+=0.02574 20
137PR G 167.5 51.5 LE
137PR G 348.50 252.0 LEE2,M1 0.037 6
137PRS G KC=0.031 6$LC=0.00481 9$MC=0.001025 16$NC+=0.000265 5
137PRS G NC=0.000228 4$OC=3.57E-5 13$PC=2.2E-6 6
137PR CG M for 348.5G+350.0G EKC=0.076 30, K/L=5.5 28
137PR G 546.90 153.0
137PR G 615.6 1 8.1 8M1,E2 0.0083 18
137PRS G KC=0.0071 16$LC=0.00098 16$MC=0.00021 4$NC+=5.4E-5 9
137PRS G NC=4.6E-5 8$OC=7.4E-6 13$PC=5.2E-7 13
137PR CG M EKC=0.009 5
137PR G 929.20 1523.0 30M1+(E2) 0.0031 7
137PRS G KC=0.0027 6$LC=0.00035 7$MC=7.4E-5 13$NC+=1.9E-5 4
137PRS G NC=1.7E-5 3$OC=2.7E-6 5$PC=2.0E-7 5
137PR CG M EKC=0.0030 5, K/L=6.5 16
137PR L 959.20 15
137PR G 883.7 22.5 LE
137PR G 959.2 50.5 LE
137PR L 1001.35 10(1/2)+
137PR E 1.7 2 6.2 9 6.2 1 7.9 11
137PRS E EAV=709 8 $CK=0.667 5 $CL=0.0939 7 $CM+=0.02661 19
137PR G 144.5 50.5 LE
137PR G 619.2 1 4.5 5M1,E2 0.0082 18
137PRS G KC=0.0070 16$LC=0.00096 16$MC=0.00020 3$NC+=5.3E-5 9
137PRS G NC=4.5E-5 7$OC=7.2E-6 13$PC=5.1E-7 13
137PR CG M EKC=0.012 6
137PR G 688.0 51.0 LE
137PR G 925.90 1557.0 60M1+(E2) 0.0031 7
137PRS G KC=0.0027 6$LC=0.00036 7$MC=7.5E-5 13$NC+=2.0E-5 4
137PRS G NC=1.7E-5 3$OC=2.7E-6 5$PC=2.0E-7 5
137PR CG M EKC=0.0028 4, K/L=9.5 24
137PR G 1001.2 52.0 LE
137PR L 1247.69 25
137PR E 0.04 1 0.3 1 7.5 2 0.3 1
137PRS E EAV=599 8 $CK=0.733 4 $CL=0.1035 6 $CM+=0.02934 17
137PR G 288.5 31.5 LE
137PR G 667.2 52.0 LE
137PR G 1247.5 51.0 LE
137PR L 1293.6 2 ?
137PR E 0.06 LE 0.4 LE 7.2 GE 0.5 LE ?
137PRS E EAV=579 7 $CK=0.744 4 $CL=0.1051 6 $CM+=0.02980 16
137PR G 1218.3 31.5 LE ?
137PR G 1293.6 23.0 5 ?
137PR L 1309.96 19
137PR E 0.12 1 0.88 9 6.9 1 1.0 1
137PRS E EAV=571 8 $CK=0.748 4 $CL=0.1056 6 $CM+=0.02996 16
137PR G 1234.5 24.0 6
137PR G 1310.0 43.5 5
137PR L 1484.55 15
137PR E 0.10 2 1.3 2 6.7 1 1.4 2
137PRS E EAV=494 7 $CK=0.784 3 $CL=0.1110 5 $CM+=0.03148 13
137PR G 525.30 153.0 5
137PR CG M EKC=0.018 5
137PR G 627.5 51.4 LE
137PR G 1102.8 102.3 5
137PR G 1484.6 24.8 8
137PR L 1625.16 131/2,3/2
137PR E 0.14 2 2.8 4 6.3 1 2.9 4
137PRS E EAV=432 7 $CK=0.8059 23 $CL=0.1144 4 $CM+=0.03247 11
137PR G 623.8 52.4 5
137PR CG M EKC=0.009 5
137PR G 863.4 42.6 LE
137PR G 1044.50 157.5 8
137PR CG M EKC=0.0022 4
137PR G 1243.1 211.0 10
137PR L 1940.74 14
137PR E 0.012 3 1.1 2 6.5 1 1.1 2
137PRS E EAV=294 7 $CK=0.8353 9 $CL=0.11940 18 $CM+=0.03392 6
137PR G 1179.8 51.0 LE
137PR G 1360.0 25.0 10
137PR G 1865.3 22.8 5
137PR G 1940.8 50.2 LE
137PR L 1968.94 12(1/2+)
137PR E 0.006 2 0.6 2 6.8 2 0.6 2
137PRS E EAV=282 7 $CK=0.8367 $CL=0.11969 17 $CM+=0.03401 5
137PR G 1388.5 22.5 LE
137PR G 1586.5 22.5 5
137PR G 1969.0 22.5 LT B
137PR3 G FLAG=D$
137PR L 1976.91 10(1/2+)
137PR E 0.017 3 1.9 2 6.3 1 1.9 2
137PRS E EAV=278 7 $CK=0.8371 $CL=0.11977 16 $CM+=0.03403 5
137PR G 1119.9 24.5 10
137PR G 1594.5 23.5 5
137PR G 1901.5 16.0 5
137PR G 1977.3 50.7 LE
137PR L 2008.54 14(3/2)
137PR E 0.0096 18 1.3 2 6.4 1 1.3 2
137PRS E EAV=264 7 $CK=0.8384 $CL=0.12006 15 $CM+=0.03412 5
137PR G 1427.7 30.5 LE
137PR G 1626.4 27.0 5
137PR G 1933.5 33.0 5 ?
137PR G 2008.6 22.5 5
137PR L 2044.62 13
137PR E 0.0063 14 1.1 2 6.5 1 1.1 2
137PRS E EAV=249 7 $CK=0.8397 $CL=0.12037 14 $CM+=0.03421 4
137PR G 1464.1 25.8 10
137PR G 1662.5 31.0 LE
137PR G 1731.1 32.0 LE
137PR G 1969.0 22.5 LT D
137PR L 2126.61 10(1/2+)
137PR E 0.0083 15 2.8 3 6.0 1 2.8 3
137PRS E EAV=213 7 $CK=0.8417 $CL=0.1210 $CM+=0.03440
137PR G 1365.1 22.0 LE
137PR G 1401.50 152.5 5
137PR G 1546.0 23.0 6
137PR G 1744.6 50.5 LE
137PR G 1813.1 26.5 8
137PR G 2051.3 27.5 5
137PR G 2126.5 31.3 LE
137PR L 2365.0 4 ?
137PR E 0.2 LE 7.0 GE 0.2 LE
137PRS E CK=0.8428 $CL=0.1223 $CM+=0.03482
137PR G 2288.7 31.5 LE ?
137PR G 2365.6 50.1 LE ?
137PR L 2410 1 ?
137PR E 0.3 LE 6.8 GE 0.3 LE
137PRS E CK=0.8425 $CL=0.1225 $CM+=0.03490
137PR G 785.3 31.5 LE ?
137PR G 2095.7 50.7 LE ?
137PR G 2333.3 100.3 LE ?
137PR L 2543.5 5 ?
137PR E 0.2 LE 6.9 GE 0.2 LE
137PRS E CK=0.8415 $CL=0.1234 $CM+=0.03518 4
137PR G 2230.6 50.5 LE ?
137PR G 2543.5 50.6 LE ?
137PR L 2590.5 5
137PR E 0.08 3 7.2 2 0.08 3
137PRS E CK=0.8410 $CL=0.1237 $CM+=0.03529 5
137PR G 1296.5 50.2 LE ?
137PR G 2275.7 100.5 LE
137PR G 2515.3 50.7 LE
137PR G 2590.5 100.1 LE