ENSDF decay dataset

180W     180RE EC DECAY                1980MA14,1967GO22         15NDS    201506
180W   H TYP=FUL$AUT=E.A. MCCUTCHAN$CIT=NDS 126, 151 (2015)$CUT=1-Feb-2015$
180W  c  1980Ma14: {+180}Re activity produced through the {+182}W(p,3n)
180W 2c  reaction with E(p)=27 MeV. Measured E|g, I|g, |g|g, and |g(t) using
180W 3c  two coaxial Ge(Li) detectors and a LEPS detector.
180W  c  1967Go22: {+180}Re activity produced through the {+182}W(p,3n)
180W 2c  reaction (target of natural tungsten) with E(p)=35 MeV. Measured
180W 3c  E|g, I|g, |g|g, |g|g(|q), |g|g(t), E(ce), I(ce), |g-|b, and |g-x-ray
180W 4c  coincidences using Ge(Li) and NaI(Tl) detectors for |g-rays, a Si(Li)
180W 5c  detector for electrons and a double focusing beta spectrometer for
180W 6c  |bs.
180W  c  A total energy release of 3800 keV {I150} is calculated for this
180W 2c  decay scheme using the RADLST code, in good agreement with Q=3801 keV
180W 3c  {I21}.
180W  cG $K| x-ray relative intensity=87 {I15} (1967Go22). Other: 105
180W 2cG (1967Ho12).
180W  cL E$From least-squares fit to E|g by evaluator.
180W  cL J$From the adopted levels. In cases where spin is constrained by data
180W 2cL from {+180}Re |e decay, details are included in the comments.
180W  cG E(c)$Observed only by 1967Go22. |g-rays were not confirmed by
180W 2cG 1980Ma14.
180W  cL T$From |g|g(t) in 1967Go22.
180W  c  Others: 1968Be53, 1968Ha39, 1967Ho12.
180W  cE TI$From an intensity balance at each level by evaluator. The I|g
180W 2cE normalization of 0.91 {I3} is used which assumes no |e branch to the
180W 3cE g.s. An upper limit on the intensity to the g.s. of I(|e+|b{++})=8%
180W 4cE is obtained from a lower limit of log {Ift}=5.9. Such a branch would
180W 5cE change the log {Ift} values by a maximum of 0.1 units.
180W  cG E$From 1980Ma14.
180W  cG RI$From 1980Ma14. These are in general in agreement with the results
180W 2cG of 1967Go22. In cases where the measured values differ by more than
180W 3cG 1|s, the values from 1967Go22 are included in the comments.
180W  D  CC$FROM BrIcc v2.3a (30-Jun-2013) 2008Ki07, "Frozen Orbitals" appr.
180RE  P 0.0          (1)-              2.46 M    3              3801     21
180W   N 0.91      3            1.00      1.0
180W  cN NR$From |SI(|g+ce)(to g.s.)=100% and assuming no |e population of the
180W 2cN g.s. An upper limit on the intensity to the g.s. of I(|e+|b{++})=8%
180W 3cN is obtained from a lower limit of log {Ift}=5.9. The corresponding
180W 4cN normalization would become 0.84 {I3}.
180W   G 131.5     14 0.121  5
180W   G 173.91    10 0.10   2
180W   G 1024.9    19 0.15   5
180W X G FLAG=c
180W   G 1036.0    4  0.011  4
180W   G 1082.6    4  0.015  5
180W   G 1228      3  0.3    1
180W X G FLAG=c
180W   G 1545      4  0.14   14                                                ?
180W X G FLAG=c
180W   G 1561.0    6  0.006  4
180W   G 1595.5    4  0.011  4
180W   G 1815.6    4  0.018  4
180W   G 1820.5    22 0.10   5
180W X G FLAG=c
180W   G 1838.4    22 0.13   4
180W X G FLAG=c
180W   G 1839.6    3  0.018  4
180W   G 1867.4    22 0.05   3
180W X G FLAG=c
180W   G 1939.1    3  0.011  3
180W   G 1991.1    3  0.021  4
180W   G 2027.2    5  0.014  4
180W   G 2034      3  0.05   2
180W X G FLAG=c
180W   G 2066.9    5  0.013  3
180W   G 2096.0    3  0.013  3
180W   G 2142.2    4  0.017  3
180W   G 2165.7    5  0.004  2
180W   G 2182.30   14 0.029  3
180W   G 2196.0    6  0.003  2
180W   G 2204.64   11 0.153  7
180W   G 2232.9    3  0.013  3
180W   G 2242      4  0.03   2
180W X G FLAG=c
180W   G 2258.40   14 0.044  4
180W   G 2341      4  0.1    LT
180W   G 2408.4    4  0.006  2
180W   G 2475.5    4  0.007  2
180W   G 2889.8    3  0.017  3
180W   G 3340.7    5  0.006  2
180W   L 0.0          0+
180W   L 103.54    3  2+
180W   G 103.57    5  24.7   7  E2                      3.40
180W S G KC=0.827 12$LC=1.95 3$MC=0.492 7$NC=0.1159 17$OC=0.01587 23$
180W S G PC=6.54E-5 10
180W  cG M$from ce(K):ce(L1):ce(L2):ce(L3)=19.3:2.55:25.1:23.2 (1968Ha39).
180W 2cG Other: 1968Be53.
180W   E             3.2     LE7.8     LE5.7     GE             11        LE   ?
180W S E EAV=1208.4 95$CK=0.581 4$CL=0.0952 7$CM+=0.02940 21
180W   L 337.51    4  4+
180W   G 233.99    5  0.88   3  [E2]                    0.184
180W S G KC=0.1106 16$LC=0.0558 8$MC=0.01379 20$NC=0.00327 5$OC=0.000466 7$
180W S G PC=9.03E-6 13
180W  cG RI$other: 0.5 {I1} (1967Go22).
180W   L 1006.35   3  2-                7.4 NS    4
180W  cL J$2 from |g|g(|q) in 1967Go02, |p from log {Ift}=4.5 from (1)- parent.
180W   G 668.80    6  0.45   3  [M2]                    0.0736
180W S G KC=0.0599 9$LC=0.01053 15$MC=0.00243 4$NC=0.000588 9$OC=9.55E-5 14$
180W S G PC=6.62E-6 10
180W   G 902.84    5  100    3  E1+M2     -0.31  5      0.00478
180W S G KC=0.0039 7$LC=0.00062 12$MC=0.00014 3$NC=3.4E-5 7$OC=5.5E-6 10$
180W S G PC=3.9E-7 7
180W  cG $|a(K)exp=0.0040 {I6} (1967Go22).
180W  cG M,MR$from |a(K)exp and A{-2}=+0.47 {I7}, A{-4}=-0.10 {I15} for
180W 2cG 902|g-103|g(|q), assuming a J=2-2-0 cascade
180W   G 1006.31   5  0.547  21 [M2]                    0.0236
180W S G KC=0.0195 3$LC=0.00321 5$MC=0.000736 11$NC=0.0001776 25$OC=2.90E-5 4$
180W S G PC=2.05E-6 3
180W   E             8.3     5 71      4 4.48    3              79        4
180W S E EAV=804.1 94$CK=0.736 3$CL=0.1217 6$CM+=0.03765 17
180W  cE $E|b=1800 keV {I60} |b|g coin (1967Go22), 1760 keV {I40} (1967Ho12).
180W   L 1082.36   4  3-
180W   G 75.99     5  0.196  10 [M1,E2]                 11.3  9
180W S G KC=5 4$LC=5 4$MC=1.2 9$NC=0.29 21$OC=0.04 3$PC=0.0005 4
180W  cG RI$other: |?0.7 (1967Go22).
180W   G 744.84    6  0.289  21 [E1]                   0.00312
180W S G KC=0.00263 4$LC=0.000380 6$MC=8.55E-5 12$NC=2.05E-5 3$OC=3.32E-6 5$
180W S G PC=2.29E-7 4
180W  cG RI$other: 0.7 {I2} (1967Go22).
180W   L 1117.31   3  2+
180W   G 1013.73   5  0.82   3  [M1,E2]                 0.006925
180W S G KC=0.0057 22$LC=0.0009 3$MC=0.00020 7$NC=4.9E-5 16$OC=8.E-6 3$
180W S G PC=5.5E-7 22
180W  cG RI$other: 1.2 {I3} (1967Go22).
180W   G 1117.28   5  0.691  21 [E2]                   0.00362
180W S G KC=0.00299 5$LC=0.000486 7$MC=0.0001112 16$NC=2.67E-5 4$OC=4.28E-6 6$
180W S G PC=2.77E-7 4
180W   E             0.011   5 0.12    5 7.22    20             0.13      6
180W S E EAV=754.9 93$CK=0.750 3$CL=0.1243 5$CM+=0.03846 15
180W   L 1185.07   6  (4-)
180W   G 178.74    10 0.079  8  [E2]                    0.452
180W S G KC=0.228 4$LC=0.1702 25$MC=0.0425 6$NC=0.01005 15$OC=0.001407 20$
180W S G PC=1.766E-5 25
180W   G 847.80    10 0.031  10 [E1]                   0.00243
180W S G KC=0.00205 3$LC=0.000294 5$MC=6.61E-5 10$NC=1.584E-5 23$OC=2.57E-6 4$
180W S G PC=1.80E-7 3
180W   L 1232.64   4  3+
180W   G 1129.14   5  0.495  21
180W   L 1587.26   5  2+
180W   G 580.8     1  0.124  21
180W   G 1483.69   6  0.114  10
180W  cG RI$other: 0.29 {I6} (1967Go22).
180W   G 1587.2    3  0.020  4
180W   E             0.0052  100.16    3 6.90    8              0.17      3
180W S E EAV=547.8 93$CK=0.7951 15$CL=0.1330 3$CM+=0.04120 10
180W   L 1632.90   6  (1-,2)
180W   G 550.52    6  0.187  15
180W   G 626.7     2  0.066  24
180W   G 1529.30   11 0.087  5
180W   E             0.0076  9 0.27    3 6.67    5              0.28      3
180W S E EAV=527.8 93$CK=0.7980 13$CL=0.1336 3$CM+=0.04141 10
180W   L 1814.85   12 (2+,3)
180W   G 808.9     3  0.032  6
180W   G 1477.3    3  0.014  5
180W   G 1711.3    2  0.026  4
180W   E             0.00052 160.034   107.49    13             0.035     10
180W S E EAV=447.9 93$CK=0.8071 9$CL=0.13584 23$CM+=0.04213 8
180W   L 1831.69   4  2-
180W  cL J$log {Ift}=5.0 from (1)- parent, 599|g to 3+
180W   G 599.0     2  0.165  21
180W   G 714.43    6  0.310  21
180W   G 749.34    5  1.24   4
180W   G 825.36    5  11.0   3  M1                     0.01564
180W S G KC=0.01308 19$LC=0.00198 3$MC=0.000449 7$NC=0.0001080 16$
180W S G OC=1.768E-5 25$PC=1.282E-6 18
180W  cG $|a(K)exp=0.014 {I3} (1967Go22).
180W  cG M$from |a(K)exp
180W  cG MR$<0.6 from |a(K)exp
180W   G 1727.8    1  0.063  8
180W   E             0.164   1411.5    4 4.953   21             11.7      4
180W S E EAV=440.6 93$CK=0.8077 9$CL=0.13602 23$CM+=0.04219 8
180W   L 2176.79   6
180W   G 1059.42   6  0.131  7
180W   G 2073.5    2  0.026  4
180W   G 2176.9    1  0.037  4
180W   E             0.00047 7 0.18    1 6.59    3              0.18      1
180W S E EAV=288.8 93$CK=0.8151 2$CL=0.13906 16$CM+=0.04322 6
180W   L 2227.82   9
180W   G 995.14    9  0.078  8
180W   G 1110.7    2  0.061  7
180W   G 1145.4    4  0.011  6
180W   E             0.00026 5 0.14    1 6.67    4              0.14      1
180W S E EAV=266.1 94$CK=0.81537 9$CL=0.13944 16$CM+=0.04335 6
180W   L 2256.63   6                                                           ?
180W   G 1250.22   6  0.062  10
180W   G 2153.24   11 0.095  6
180W   E             0.00021 4 0.14    1 6.65    4              0.14      1
180W S E EAV=253.3 94$CK=0.8154$CL=0.13965 16$CM+=0.04343 6
180W   L 2415.75   4  2-
180W  cL J$log {Ift}=5.7 from (1)- parent, 1183|g to 3+
180W   G 782.6     2  0.030  10
180W   G 828.5     2  0.04   2                                                 ?
180W   G 1183.11   7  0.124  10
180W   G 1298.44   5  0.382  10
180W   G 1333.4    2  0.060  6
180W   G 1409.40   5  0.516  21
180W  cG RI$other: 1.2 {I1} (1967Go22).
180W   G 2312.1    2  0.020  4
180W   E                       0.95    4 5.72    3              0.95      4
180W S E CK=0.8150 2$CL=0.14084 17$CM+=0.04386 6
180W   L 2435.21   4  2-
180W  cL J$log {Ift}=5.8 from (1)- parent, 1203|g to 3+
180W   G 847.80    10 0.031  10
180W   G 1202.6    1  0.089  7
180W  cG RI$other: 0.27 {I8} (1967Go22).
180W   G 1250.22   6  0.062  10
180W   G 1317.85   6  0.196  10
180W  cG RI$other: 0.30 {I7} (1967Go22).
180W   G 1352.80   5  0.310  21
180W   G 1428.8    1  0.041  10
180W   G 2331.87   11 0.094  5
180W   E                       0.75    4 5.81    3              0.75      4
180W S E CK=0.8148 2$CL=0.14099 17$CM+=0.04391 7
180W   L 2522.56   7
180W   G 935.2     2  0.036  9
180W   G 1290.0    1  0.043  6
180W   G 1405.2    1  0.069  7
180W   G 1516.0    5  0.052  10
180W   E                       0.182   156.37    4              0.182     15
180W S E CK=0.8140 3$CL=0.14172 19$CM+=0.04418 7
180W   L 2531.49   9
180W   G 699.7     2  0.10   3                                                 ?
180W   G 1449.2    2  0.018  6
180W   G 1525.14   11 0.084  5
180W   E                       0.18    3 6.36    8              0.18      3
180W S E CK=0.8139 3$CL=0.14180 19$CM+=0.04421 7
180W   L 2546.84   10
180W   G 1314.2    1  0.041  10
180W   G 1429.5    2  0.114  21
180W   E                       0.141   216.46    7              0.141     21
180W S E CK=0.8138 3$CL=0.14194 20$CM+=0.04426 8
180W   L 2884.10   6  2-
180W  cL J$log {Ift}=5.6 from (1)- parent, 1651|g to 3+
180W   G 1069.4    2  0.034  6
180W   G 1651.45   11 0.073  5
180W   G 1766.74   11 0.095  9
180W   G 1801.75   11 0.157  10
180W   G 1877.70   10 0.231  10
180W   G 2780.6    2  0.0144 21
180W   E                       0.505   2 5.617   24             0.505     2
180W S E CK=0.8080 6$CL=0.1462 4$CM+=0.04583 14
180W   L 2909.99   10                                                          ?
180W   G 1678.0    3  0.023  6
180W   G 1792.3    3  0.019  5
180W   G 1903.6    1  0.032  4
180W   E                       0.07    1 6.45    7              0.07      1
180W S E CK=0.8074 6$CL=0.1466 4$CM+=0.04601 15