182W 182RE EC DECAY (14.14 H) 1971GA37,1969GA23,1969SA2515NDS 201512
182W H TYP=FUL$AUT=BALRAJ SINGH$CIT=NDS 130, 21 (2015)$CUT=15-Jul-2015$
182W c 1971Ga37, 1970Ag07 (both papers from the same group): measured
182W 2c conversion electrons using an iron-free |p|62 |b spectrometer.
182W c 1969Ga23: Measured E|g, I|g, |g|g and |g(ce) coin. Deduced conversion
182W 2c coefficients from their |g-ray data and ce data of 1961Ha23 and
182W 3c 1964Ba43
182W c 1969Sa25: Measured E|g, I|g, |g|g. Deduced conversion coefficients
182W 2c from their |g-ray data and ce data from 1961Ha23
182W c 1980Sp01: Measured |g(|q,temp), nuclear orientation at low temperature
182W c 1961Ha23: Measured ce
182W c Others:
182W c 1964Ba43: Measured ce. Relative electron intensities measured for about
182W 2c 14 transitions from 734 to 1189 keV. No conversion coefficients given.
182W c 1963Ba37: Measured E|b
182W c 1959Ga15: Measured E|g, I|g
182W c The decay scheme is primarily proposed by 1971Ga37
182W cE LOGFT$Energy of the isomer was assumed as 80 keV {i80} for the purpose
182W 2cE of deducing log| {Ift} values
182W cG $q{-K}(E0/E2)=ratios of K-conversion intensities of E0 and E2
182W 2cG transitions
182W cG $Additional unplaced transitions were reported by all
182W 2cG authors. Only those unplaced transitions are listed here which
182W 3cG are reported by more than one author.
182W cG $ For A{-2} values from |g(|q,temp), see {+182}Re |e decay (64.0 h)
182W cG M,MR$From Adopted Gammas
182W cG E$From ce data of 1971Ga37 (also 1970Ag07), unless otherwise stated
182W cG RI$Weighted averages of values from 1969Ga23 and 1969Sa25.
182W 2cG The uncertainties from 1969Ga23 were increased substantially to reflect
182W 3cG poor agreement of data with those from 1969Sa25.
182W 4cG For |DI|g(absolute) combine 5.1% in quadrature with |DI|g(rel),
182W 5cG except as noted.
182W cG E(X),RI(X)$Energy from ce data of 1971Ga37. The |g-ray intensity is
182W 2cG 0.82 {I5} combined for E|g=2109.3 {I10} (1969Sa25), 0.82 {I8} for 2110
182W 3cG {I2} (1969Ga23) corresponding to a triplet (2106.8+2108.6+2109.3) from
182W 4cG conversion electron data
182W cG E(Y),RI(Z)$From 1969Ga23
182W cG E(U),RI(V)$From 1969Sa25
182W cG CC$Theoretical values from BrIcc v2.3b (16-Dec-2014) 2008Ki07,
182W 2cG "Frozen Orbitals" approximation. If mixing ratio |d is not given, it
182W 3cG was assumed as 1.0 for E2/M1 and E3/M2 and 0.10 for others
182W cL E$ From least-squares fit to E|g data. The 1857.3|g was not used in the
182W 2cL fitting procedure due to poor agreement in energy.
182W cL J$From Adopted Levels
182W N 0.320 16 1 1
182W cN NR$|S(I(|g+ce) of |gs to g.s.)=100
182W PN 3
182RE P 0+X 2+ 14.14 H 45 2.80E3 10
182RE cP J,T$From {+182}Re Adopted Levels. Half-life is based on new measurement
182RE2cP reported in 2014Ma43 and 2011Bo01
182RE cP E$x=60 {I100} (2012Au07) from beta decay results
182RE cP QP$From 2012Wa38
182W G 1410.4 3 0.12 2
182W G 1523 2 0.05 AP
182W G 1537 2 0.05 AP
182W G 1558 2 0.24 3
182W G 1757.0
182W cG $|a(K)exp>0.00046 (1971Ga37)
182W G 2033.3 3 0.07 AP
182W cG $|a(K)exp|?0.00066 (1971Ga37)
182W G 2099 3 0.08 AP
182W cG $|a(K)exp<0.00039 (1971Ga37)
182W G 2189 3 0.055 15 Y
182W G 2230 3 0.034 10 Y
182W L 0.0 0+
182W L 100.11 4 2+
182W E 1.6 6 14 5 7.7 2 16 5
182W S E EAV=798 57$CK=0.738 18$CL=0.122 4$CM+=0.0378 10
182W G 100.12 5 45 3E2 3.89
182W S G KC=0.878 13$LC=2.28 4$MC=0.576 9
182W S G NC=0.1357 20$OC=0.0186 3$PC=7.07E-5 10
182W cG |DI|g(absolute)=0.4 per 100 decays.
182W L 329.42 5 4+
182W G 229.32 5 8 1E2 0.196
182W S G KC=0.1167 17$LC=0.0605 9$MC=0.01497 21
182W S G NC=0.00354 5$OC=0.000505 7$PC=9.50E-6 14
182W L 1221.49 5 2+
182W E 0.01 LT 4 LT 7.8 GT 4LT ?
182W S E EAV=304 57$CK=0.8148 19$CL=0.1388 11$CM+=0.0431 4
182W G 1121.4 1 100 E2+M1+E0 +30 +6-4 0.00359
182W S G KC=0.00297 5$LC=0.000483 7$MC=0.0001104 16
182W S G NC=2.65E-5 4$OC=4.25E-6 6$PC=2.76E-7 4$IPC=4.75E-7 7
182W cG $E0 admixture: q{-K}(E0/E2)=0.19 {I6} (1975We22), also 1990Ka35
182W G 1221.5 1 78 3E2 0.00305
182W S G KC=0.00252 4$LC=0.000402 6$MC=9.15E-5 13
182W S G NC=2.20E-5 3$OC=3.53E-6 5$PC=2.34E-7 4$IPC=6.76E-6 10
182W cG |DI|g(absolute)=1.4 per 100 decays.
182W L 1257.45 5 2+
182W E 0.002 3 0.93 17 8.4 1 0.93 17
182W S E EAV=288 57$CK=0.8151 15$CL=0.1391 10$CM+=0.0432 4
182W G 927.99 5 1.6217E2 0.00524
182W S G KC=0.00429 6$LC=0.000738 11$MC=0.0001698 24
182W S G NC=4.07E-5 6$OC=6.47E-6 9$PC=3.98E-7 6
182W G 1257.3 1 4.3919E2 0.00289
182W S G KC=0.00239 4$LC=0.000378 6$MC=8.60E-5 12
182W S G NC=2.07E-5 3$OC=3.33E-6 5$PC=2.21E-7 3$IPC=1.118E-5 16
182W L 1289.24 5 2-
182W E 0.08 9 37 4 6.8 1 37 4
182W S E EAV=274 58$CK=0.8153 12$CL=0.1393 10$CM+=0.0433 4
182W G 67.75 120 5 E1 0.202 S
182W S G LC=0.1563 22$MC=0.0358 5
182W S G NC=0.00840 12$OC=0.001234 18$PC=5.51E-5 8
182W cG E,RI,M$ based on values in Adopted Levels, Gammas dataset.
182W 2cG This most intense but lowest-energy transition is not reported
182W 3cG in this decay.
182W G 959.81 5 1.7 4E3+M2 -5.5 +19-100.0116 7
182W S G KC=0.0090 6$LC=0.00196 8$MC=0.000463 17
182W S G NC=0.000111 4$OC=1.73E-5 7$PC=9.3E-7 6
182W G 1189.2 1 47.319E1+M2+E3 0.0047 3
182W cG $|d(M2/E1)=+0.48 3;|d(E3/E1)=-0.67 5
182W cG M,CC$59% {I4} E1, 14% {I1} M2 and 27% {I3} E3.
182W 2cG Conversion coefficient deduced for this admixture
182W G 1289.3 1 3.8517M2 0.01230
182W S G KC=0.01019 15$LC=0.001630 23$MC=0.000372 6
182W S G NC=8.97E-5 13$OC=1.465E-5 21$PC=1.047E-6 15$IPC=5.97E-6 9
182W cG |DI|g(absolute)=0.08 per 100 decays.
182W L 1331.24 6 3+
182W E 0.0003 5 0.21 14 9.0 3 0.21 14
182W S E EAV=255 58$CK=0.8154 8$CL=0.1396 10$CM+=0.0434 4
182W G 1001.8 1 0.7APE2+M1 -8.9 +18-210.004558
182W S G KC=0.00374 6$LC=0.000627 10$MC=0.0001437 23
182W S G NC=3.45E-5 6$OC=5.50E-6 9$PC=3.48E-7 6
182W G 1231.1 1 4.1120E2+M1 -33 +6-9 0.00300
182W S G KC=0.00249 4$LC=0.000395 6$MC=9.01E-5 13
182W S G NC=2.16E-5 3$OC=3.48E-6 5$PC=2.31E-7 4$IPC=7.87E-6 11
182W cG $|a(K)exp=0.0025 {I3} (1971Ga37)
182W L 1373.91 5 3-
182W E 0.03 5 29 3 6.9 1 29 3
182W S E EAV=236 58$CK=0.8155 6$CL=0.1399 10$CM+=0.0435 4
182W G 84.68 5 8.4 7M1+E2 +0.326 11 7.66
182W S G KC=5.84 9$LC=1.40 3$MC=0.331 8
182W S G NC=0.0790 19$OC=0.0121 3$PC=0.000593 9
182W G 116.40 5 1.1 3E1 0.253
182W S G KC=0.208 3$LC=0.0353 5$MC=0.00806 12
182W S G NC=0.00191 3$OC=0.000291 4$PC=1.510E-5 22
182W G 152.43 5 22.019E1 0.1258
182W S G KC=0.1038 15$LC=0.01703 24$MC=0.00387 6
182W S G NC=0.000919 13$OC=0.0001421 20$PC=7.85E-6 11
182W cG $|a(K)exp=0.17 {I5} for 151.1|g+152.4|g+154.0|g (1971Ga37)
182W G 1044.5 1 0.55 7E1+M2(+E3)0.46 9 0.0051 12
182W S G KC=0.0042 10$LC=0.00067 16$MC=0.00015 4
182W S G NC=3.7E-5 9$OC=6.0E-6 14$PC=4.2E-7 10
182W G 1273.8 1 1.6614E1+M2+E3 0.0013212
182W cG $|d(M2/E1)=+0.36 10; |d(E3/E1)=-0.28 12
182W S G KC=0.00107 10$LC=0.000153 16$MC=3.4E-5 4
182W S G NC=8.2E-6 9$OC=1.34E-6 14$PC=9.6E-8 10$IPC=4.83E-5 8
182W cG M,CC$81% {I5} E1, 12% {I4} M2 and 7% {I2} E3.
182W 2cG Conversion coefficient deduced for this admixture from BrIcc code
182W G 1373.9 1 0.56 6E3 0.00496
182W S G KC=0.00400 6$LC=0.000728 11$MC=0.0001685 24
182W S G NC=4.05E-5 6$OC=6.44E-6 9$PC=3.97E-7 6$IPC=1.252E-5 18
182W L 1442.83 11 4+
182W E 0.42 LT 8.7 GT 0.42LT ?
182W S E CK=0.8153 10$CL=0.1404 11$CM+=0.0437 4
182W G 1113.4 1 1.1 2E2+M1(+E0)+5.6 +13-100.003768 U
182W cG $E0 admixture: q{-K}(E0/E2)=0.41 {I9} (1975We22)
182W F G FLAG=V
182W S G KC=0.00311 7$LC=0.000504 10$MC=0.0001150 22
182W S G NC=2.76E-5 6$OC=4.43E-6 9$PC=2.89E-7 7$IPC=3.53E-7 6
182W L 1487.61 5 4-
182W E 2.1 4 8.8 2 2.1 4 1U
182W S E CK=0.800 4$CL=0.1521 25$CM+=0.0481 10
182W G 113.70 5 1.3 2M1+E2 +0.36 1 3.18
182W S G KC=2.49 4$LC=0.529 9$MC=0.1241 22
182W S G NC=0.0297 6$OC=0.00462 8$PC=0.000250 4
182W G 156.38 5 1.7 3E1 0.1177
182W S G KC=0.0972 14$LC=0.01590 23$MC=0.00362 5
182W S G NC=0.000858 12$OC=0.0001328 19$PC=7.38E-6 11
182W G 198.36 5 0.55 8E2 0.317
182W S G KC=0.1725 25$LC=0.1097 16$MC=0.0273 4
182W S G NC=0.00646 9$OC=0.000910 13$PC=1.363E-5 20
182W L 1553.33 5 4-
182W G 179.38 5 0.9217M1+E2 +1.3 2 0.62 4
182W S G KC=0.42 5$LC=0.149 5$MC=0.0363 13
182W S G NC=0.0086 3$OC=0.00127 4$PC=3.9E-5 5
182W G 222.08 5 2.1717E1 0.0480
182W S G KC=0.0399 6$LC=0.00630 9$MC=0.001430 20
182W S G NC=0.000340 5$OC=5.34E-5 8$PC=3.17E-6 5
182W G 264.08 5 0.9012E2 0.1254
182W S G KC=0.0799 12$LC=0.0347 5$MC=0.00852 12
182W S G NC=0.00202 3$OC=0.000291 4$PC=6.69E-6 10
182W L 1856.02 7 (2+)
182W E 0.50 6 8.3 2
182W S E CK=0.810 3$CL=0.1445 21$CM+=0.0452 8
182W G 598.56 5 1.2313(M1) 0.0354
182W S G KC=0.0296 5$LC=0.00453 7$MC=0.001027 15
182W S G NC=0.000247 4$OC=4.04E-5 6$PC=2.92E-6 4
182W cG $|a(K)exp=0.035 {I13} (1970Ag07)
182W G 1756.0 2 0.19 4
182W cG $|a(K)exp>0.0012 (1971Ga37)
182W G 1857.3 2 0.099 7(E2) 1.59E-3
182W F G FL=0.0
182W S G KC=0.001162 17$LC=0.0001723 25$MC=3.89E-5 6
182W S G NC=9.35E-6 13$OC=1.522E-6 22$PC=1.073E-7 15$IPC=0.000210 3
182W cG $|a(K)exp=0.0014 {I8} (1971Ga37)
182W cG E$ poor fit in the level scheme, deviates by 1 keV.
182W L 1871.17 15 1-
182W E 0.63 5 8.2 2
182W S E CK=0.810 3$CL=0.1447 22$CM+=0.0453 8
182W G 1543 2 0.05AP[E3] 0.00391
182W S G KC=0.00316 5$LC=0.000549 8$MC=0.0001265 19
182W S G NC=3.04E-5 5$OC=4.86E-6 7$PC=3.11E-7 5$IPC=3.77E-5 7
182W G 1771.0 2 1.0110E1 1.04E-3
182W S G KC=0.000562 8$LC=7.77E-5 11$MC=1.740E-5 25
182W S G NC=4.18E-6 6$OC=6.84E-7 10$PC=4.98E-8 7$IPC=0.000383 6
182W cG $|a(K)exp=0.00055 {I16} (1971Ga37)
182W G 1871.2 2 0.91 7E1 1.06E-3
182W S G KC=0.000513 8$LC=7.09E-5 10$MC=1.587E-5 23
182W S G NC=3.81E-6 6$OC=6.24E-7 9$PC=4.55E-8 7$IPC=0.000457 7
182W cG $|a(K)exp=0.00054 {I20} (1971Ga37)
182W L 2023.66 5 3-
182W E 3.10 21 7.3 2
182W S E CK=0.806 5$CL=0.147 4$CM+=0.0463 12
182W G 470.26 5 6.3 3M1+E2 0.6 1 0.055 3
182W S G KC=0.0455 25$LC=0.0075 3$MC=0.00171 6
182W S G NC=0.000412 15$OC=6.6E-5 3$PC=4.5E-6 3
182W cG $|a(K)exp=0.051 {I14} (1970Ag07)
182W cG $L1/L2|?13 (1971Ga37)
182W G 536.04 5 0.6510M1+E2 0.7 2 0.037 4
182W S G KC=0.031 4$LC=0.0051 4$MC=0.00116 9
182W S G NC=0.000279 21$OC=4.5E-5 4$PC=3.0E-6 4
182W cG $|a(K)exp=0.044 {I13} (1970Ag07)
182W G 649.73 5 1.0615M1+E2 0.8 2 0.0219 23
182W S G KC=0.0181 19$LC=0.00293 24$MC=0.00067 6
182W S G NC=0.000161 13$OC=2.60E-5 22$PC=1.76E-6 20
182W cG $|a(K)exp=0.028 {I12} (1970Ag07)
182W G 734.53 5 1.1814M1+E2 1.0 3 0.0148 22
182W S G KC=0.0122 19$LC=0.00199 24$MC=0.00045 6
182W S G NC=0.000109 13$OC=1.76E-5 22$PC=1.18E-6 19
182W cG $|a(K)exp=0.026 {I12} (1970Ag07)
182W L 2057.47 7 1+
182W E 2.01 15 7.5 2
182W S E CK=0.805 5$CL=0.148 4$CM+=0.0465 13
182W G 800 1 0.4712 Y
182W F G FLAG=Z
182W G 835.98 5 1.4515(M1+E2) 0.8 AP 0.01177AP
182W S G KC AP 0.00979$LC AP 0.001538$MC AP 0.000350
182W S G NC AP 8.42E-5$OC AP 1.366E-5$PC AP 9.48E-7
182W cG $|a(K)exp=0.015 {I8} (1971Ga37,1970Ag07)
182W G 1957.4 2 1.4310(M1+E2) 1.0 +6-4 0.0018617
182W S G KC=0.00131 13$LC=0.000193 18$MC=4.4E-5 4
182W S G NC=1.05E-5 10$OC=1.72E-6 17$PC=1.24E-7 13$IPC=0.000303 23
182W cG $|a(K)exp=0.0022 {I7} (1971Ga37)
182W G 2057.4 3 2.9023
182W cG $|a(K)exp=0.0044 {I13} (1971Ga37)
182W cG $%I|g=0.93 {I9} (intensity per 100 decays)
182W L 2109.80 21 (2-,3-)
182W E 0.35 9 8.2 2
182W S E CK=0.804 6$CL=0.149 4$CM+=0.0470 15
182W G 555 1 0.3510(E2) 0.01627
182W S G KC=0.01264 19$LC=0.00279 5$MC=0.000658 10
182W S G NC=0.0001571 24$OC=2.41E-5 4$PC=1.161E-6 17
182W cG $|a(K)exp<0.018 (1970Ag07)
182W G 2010.1 3 0.30 4(E1+M2) 0.9 +7-4 0.0025085
182W S G KC=0.00176 80$LC=2.7E-4 13$MC=6.0E-5 28
182W S G NC=1.45E-5 68$OC=2.4E-6 11$PC=1.73E-7 81$IPC=3.9E-4 10
182W cG $|a(K)exp=0.0019 {I11} (1971Ga37)
182W G 2109.3 5 0.82 LT[M2,E3] 0.0030380 X
182W S G KC=0.00235 66$LC=3.64E-4 95$MC=8.3E-5 22
182W S G NC=1.99E-5 52$OC=3.25E-6 86$PC=2.31E-7 68$IPC=0.000211 16
182W cG $|a(K)exp>0.0011 (1971Ga37)
182W L 2116.4 3
182W E 0.80 11 7.8 2
182W S E CK=0.803 6$CL=0.149 5$CM+=0.0471 16
182W G 2016.3 3 2.5 3
182W cG $|a(K)exp=0.0020 {I6} (1971Ga37)
182W L 2147.98 17 (3-)
182W E 0.250 20 8.3 2
182W S E CK=0.802 7$CL=0.150 5$CM+=0.0474 18
182W G 1818.8 2 0.33 3(E1) 1.05E-3
182W S G KC=0.000537 8$LC=7.43E-5 11$MC=1.664E-5 24
182W S G NC=4.00E-6 6$OC=6.54E-7 10$PC=4.76E-8 7$IPC=0.000418 6
182W cG $|a(K)exp=0.00054 {I24} (1971Ga37)
182W G 2047.3 3 0.36 3(E1+M2) 1.0 +10-5 0.0025889
182W S G KC=0.00183 84$LC=2.8E-4 13$MC=6.3E-5 30
182W S G NC=1.51E-5 72$OC=2.5E-6 12$PC=1.80E-7 85$IPC=3.9E-4 12
182W cG $|a(K)exp=0.0020 {I8} (1971Ga37)
182W G 2148 3 0.08819[E3] 0.00218 Y
182W S G KC=0.001633 24$LC=0.000259 4$MC=5.90E-5 9
182W S G NC=1.419E-5 21$OC=2.30E-6 4$PC=1.573E-7 23$IPC=0.000209 3
182W L 2173.3 3
182W E 0.042 7 9.0 2
182W S E CK=0.801 7$CL=0.151 5$CM+=0.0477 19
182W G 2073.2 3 0.13 2
182W cG $|a(K)exp|?0.002 (1971Ga37)
182W L 2184.12 6 (2-,3-)
182W E 2.59 22 7.19 20
182W S E CK=0.801 8$CL=0.151 6$CM+=0.0478 20
182W G 810.24 5 1.2014(M1) 0.01639
182W S G KC=0.01371 20$LC=0.00208 3$MC=0.000470 7
182W S G NC=0.0001132 16$OC=1.85E-5 3$PC=1.343E-6 19
182W cG $|a(K)exp=0.014 {I7} (1970Ag07)
182W G 894.85 5 6.6 5(M1) 0.01276
182W S G KC=0.01068 15$LC=0.001613 23$MC=0.000365 6
182W S G NC=8.79E-5 13$OC=1.440E-5 21$PC=1.045E-6 15
182W cG $|a(K)exp=0.013 {I2} (1971Ga37)
182W DG $ EKC=0.022 7 (1970Ag07)
182W G 2084.0 3 0.20421
182W cG $|a(K)exp=0.0008 {I4} (1971Ga37)
182W L 2207.17 15 (3-)
182W E 0.31 8 8.1 3
182W S E CK=0.800 8$CL=0.152 6$CM+=0.0481 22
182W G 1877.6 2 0.19 6(E1+M2) 0.8 +4-3 0.0025677
182W S G KC=0.00186 70$LC=2.8E-4 11$MC=6.4E-5 25
182W S G NC=1.54E-5 60$OC=2.52E-6 98$PC=1.83E-7 71$IPC=0.00034 7
182W cG $|a(K)exp=0.0021 {I13} (1971Ga37)
182W G 2106.8 5 0.82 LT X
182W cG $|a(K)exp>0.00050 (1971Ga37)
182W G 2207.7 3 0.33 3(E3) 0.00209
182W S G KC=0.001548 22$LC=0.000244 4$MC=5.56E-5 8
182W S G NC=1.336E-5 19$OC=2.17E-6 3$PC=1.488E-7 21$IPC=0.000229 4
182W cG $|a(K)exp=0.0014 {I7} (1971Ga37)
182W L 2208.94 18 3-
182W E 0.20 8 8.3 3
182W S E CK=0.800 8$CL=0.152 6$CM+=0.0481 22
182W G 1879.6 2 0.17 5E1 1.06E-3
182W S G KC=0.000509 8$LC=7.04E-5 10$MC=1.575E-5 22
182W S G NC=3.78E-6 6$OC=6.19E-7 9$PC=4.52E-8 7$IPC=0.000463 7
182W cG $|a(K)exp=0.0005 {I3} (1971Ga37)
182W G 2108.6 5 0.82 LT X
182W cG $|a(K)exp>0.0004 (1971Ga37)
182W L 2240.83 15 (3+)
182W E 0.083 11 8.6 2
182W S E CK=0.798 9$CL=0.153 7$CM+=0.0485 25
182W G 1911.8 2 0.13924(M1) 0.00230
182W S G KC=0.001659 24$LC=0.000245 4$MC=5.52E-5 8
182W S G NC=1.330E-5 19$OC=2.18E-6 3$PC=1.602E-7 23$IPC=0.000322 5
182W cG $|a(K)exp=0.0021 {I8} (1971Ga37)
182W G 2140.3 2 0.12121(M1) 0.00197
182W S G KC=0.001265 18$LC=0.000186 3$MC=4.19E-5 6
182W S G NC=1.010E-5 15$OC=1.658E-6 24$PC=1.219E-7 17$IPC=0.000464 7
182W cG $|a(K)exp=0.0017 {I8} (1971Ga37)
182W L 2274.73 6 (3)-
182W E 0.72 10 7.6 3
182W S E CK=0.796 11$CL=0.155 8$CM+=0.049 3
182W G 787.11 5 0.9518(M1) 0.01763
182W S G KC=0.01474 21$LC=0.00224 4$MC=0.000506 7
182W S G NC=0.0001219 17$OC=2.00E-5 3$PC=1.446E-6 21
182W cG $|a(K)exp=0.019 {I13} (1970Ag07)
182W G 900.80 5 1.1119(M1+E2) 0.5 AP 0.01116AP
182W S G KC AP 0.00932$LC AP 0.001427$MC AP 0.000324
182W S G NC AP 7.79E-5$OC AP 1.271E-5$PC AP 9.06E-7
182W cG $|a(K)exp=0.015 {I5} (1971Ga37), 0.025 {I16} (1970Ag07)
182W G 2175.2 3 0.14721E1 1.14E-3
182W S G KC=0.000402 6$LC=5.53E-5 8$MC=1.238E-5 18
182W S G NC=2.97E-6 5$OC=4.87E-7 7$PC=3.57E-8 5$IPC=0.000671 10
182W cG $|a(K)exp<0.00039 (1971Ga37)
182W L 2316.1 22
182W E 0.0304 22 8.9 3
182W S E CK=0.793 13$CL=0.157 9$CM+=0.050 4
182W G 2216 3 0.07AP Y
182W F G FLAG=Z
182W G 2316 3 0.025 5 Y
182W F G FLAG=Z