158GD 158EU B- DECAY 1974KL11,1975BL03,1996GR2017NDS 201704
158GD H TYP=FUL$AUT=N. NICA$CIT=NDS 141, 1 (2017)$CUT=1-Feb-2017$
158GD DG CC$ FROM BrIcc v2.2b (20-Jan-2009) 2008Ki07, "Frozen Orbitals" appr.
158GD c The decay scheme and |g data are primarily from 1974Kl11; that of
158GD2c 1975Bl03 is in substantial agreement. The sum of the
158GD3c intensities of the |b- branches to the 0- and 79-keV levels
158GD4c is from the 4|p|g-|b- measurement of 1996Gr20. Other
158GD5c measurements: 1997Gr09, 1972Kl01, 1972Ho08, 1969RiZY, 1966Da19,
158GD6c 1966Da06, 1965Sc19, 1965Mu16, 1963Da07.
158GD cB IB Deduced from |g-ray intensity balances at the various
158GD2cB levels and along with the I{-|b-}(0) + I{-|b-}(79) = 8.6% {I24}
158GD3cB from 1996Gr20. Other: I{-|b-}(0) = 0 and I{-|b-}(79)=24
158GD4cB from 1974Kl11.
158GD cB $Below 2100 keV, these calculated I{-|b-} are in excellent
158GD2cB agreement with those deduced from the total absorption |g
158GD3cB spectrometer, TAGS, data of 1997Gr09. Above this energy, these
158GD4cB I{-|b-} are lower than those from the TAGS data which is
158GD5cB consistent with the fact that there are a number of unplaced,
158GD6cB high-energy |g rays. For the larger differences, the TAGS
158GD7cB results are given in comments.
158GD cB $Measured E(|b-) in keV include:
158GD cB $3400 {I150} (1966Da06)
158GD cB $2430 {I100} (1966Da06), 2520 {I120} (1965Sc19)
158GD cB $1550 {I100} (1966Da06), 1950 {I230} (1965Sc19)
158GD cB $|? 1100 (1966Da06), 1150 {I90} (1965Sc19)
158GD cB $Measured I(|b-) include:
158GD cB $I|b(3400 keV)/I|b(2430 keV)=0.11 (1966Da06) and
158GD2cB I|b(3400 keV)=5%.
158GD cB LOGFT See I{-|b-} comments for assumptions and limitations.
158GD cG E,RI From 1974Kl11 for |? 130 |g's; others: 1975Bl03 for 65
158GD2cG |g's and 1966Da06, 1965Sc19, 1965Mu16, and 1963Da07 with
158GD3cG <25 |g's.
158GD cG M From {+158}Gd Adopted |g radiations.
158GD cG E(A) From level energy differences (1974Kl11).
158GD cG RI(B) From coincidence data (1974Kl11).
158GD cG RI(H)$Author's uncertainty (1974Kl11) of 0.60 is assumed by evaluator
158GD2cG to be a misprint; evaluator used 0.06.
158GD cG RI(S) This value of 2.10 {I15} is higher relative to that of
158GD2cG the 1944 |g than that observed in {+157}Gd(n,|g) where the
158GD3cG relative values would give I{-|g}(763)=0.89 {I13}.
158GD cG RI(T) This value of 1.29 {I13} is higher relative to that of
158GD2cG the 1944 |g than that observed in {+157}Gd(n,|g) where the
158GD3cG relative values would give I{-|g}(827)=0.62 {I9}.
158GD cL See {+158}Gd Adopted Levels for band assignments.
158GD cL E From least-squares fit to |g energies.
158GD cL J From {+158}Gd Adopted Levels.
158EU P 0 (1-) 45.9 M 2 3434 10
158GD N 0.30 3 1.0 1.0
158GD cN NR$calculated to give 91% |b- feeding to the levels above 100 keV.
158GD2cN The uncertainty allows for the large number of unplaced |g's.
158GD2cN This is based on 1996Gr20 that found by total absorption spectrometry
158GD2cN that that the summed population of the two states under 100 keV is
158GD2cN 8.6% {I24}. This is in between the previously established figures
158GD2cN of 5% (1966Da06) and 22.3% {I80} (1974Kl11), rather assigned to the
158GD2cN 79.5 state alone.
158GD PN 3
158GD G 218.4 4 0.15 5
158GD cG $%I|g=0.046~{I17}
158GD G 879.31 15 0.56 9
158GD cG $%I|g=0.17~{I4}
158GD cG E May be an {+160}Tb impurity line.
158GD G 1130.2 4 0.06 3
158GD cG $%I|g=0.018~{I10}
158GD G 1166.5 5 0.05 3
158GD cG $%I|g=0.015~{I10}
158GD G 1245.1 4 0.10 4
158GD cG $%I|g=0.030~{I13}
158GD G 1250.4 4 0.11 4
158GD cG $%I|g=0.033~{I13}
158GD G 1256.0 8 0.10 LT
158GD cG $%I|g=0.015~{I16}
158GD G 1363.2 4 0.12 3
158GD cG $%I|g=0.036~{I11}
158GD G 1492.5 7 0.08 4
158GD cG $%I|g=0.024~{I13}
158GD G 1552.0 7 0.11 3
158GD cG $%I|g=0.033~{I10}
158GD G 1563.8 6 0.09 3
158GD cG $%I|g=0.027~{I10}
158GD G 1657.3 8 0.06 3
158GD cG $%I|g=0.018~{I10}
158GD G 1857.0 5 0.32 7
158GD cG $%I|g=0.097~{I25}
158GD G 1956.2 3 0.30 4
158GD cG $%I|g=0.091~{I17}
158GD G 2139.0 4 0.88 22
158GD cG $%I|g=0.27~{I8}
158GD G 2163.4 4 0.14 2
158GD cG $%I|g=0.043~{I9}
158GD G 2194.2 7 0.11 3
158GD cG $%I|g=0.033~{I10}
158GD G 2203.8 4 0.28 4
158GD cG $%I|g=0.085~{I17}
158GD G 2268.2 5 0.21 3
158GD cG $%I|g=0.064~{I13}
158GD G 2273.7 5 0.17 3
158GD cG $%I|g=0.052~{I12}
158GD G 2402.7 4 0.16 3
158GD cG $%I|g=0.049~{I11}
158GD G 2464. 2 0.04 2
158GD cG $%I|g=0.012~{I7}
158GD G 2514.0 5 0.36 3
158GD cG $%I|g=0.109~{I17}
158GD G 2703 2 0.11 2
158GD cG $%I|g=0.033~{I8}
158GD G 2806 3 0.017 8
158GD cG $%I|g=0.005~{I3}
158GD G 2873 2 0.016 8
158GD cG $%I|g=0.005~{I3}
158GD G 2884 2 0.018 9
158GD cG $%I|g=0.005~{I3}
158GD G 2967 3 0.016 8
158GD cG $%I|g=0.005~{I3}
158GD L 0.0 0+
158GD L 79.51 7 2+
158GD B 9 3 8.26 15
158GDS B EAV=1375.1 46
158GD cB IB From I{-|b-}(0) + I{-|b-}(79)=8.6% {I24} (1996Gr20) and
158GD2cB the assumption that I{-|b-}(0) = 0.0.
158GD G 79.49 10 35 6 E2 5.94 C
158GD cG $%I|g=10.6~{I5}
158GDS G KC=2.02 3$LC=3.02 5$MC=0.715 11$NC+=0.180 3
158GDS G NC=0.1593 25$OC=0.0207 4$PC=9.94E-5 15
158GD cG RI From I{-|b-}(79)=8.6% {I24}; measurements are 20 {I4}
158GD2cG (1966Da06) and 44 {I4} (1974Kl11). If a portion of the |b-
158GD3cG goes to the ground state, this I{-|g} will be less.
158GD L 261.47 10 4+
158GD B 0.8 4 9.21 22
158GDS B EAV=1291.9 46
158GD cB LOGFT$Value highly questionable for a (1-) to 4+ transition
158GD G 181.97 11 7.8 8E2 0.305 C
158GD cG $%I|g=2.4~{I4}
158GDS G KC=0.206 3$LC=0.0769 11$MC=0.0178 3$NC+=0.00455 7
158GDS G NC=0.00399 6$OC=0.000544 8$PC=1.156E-5 17
158GD L 977.15 7 1-
158GD B 21.3 24 7.33 5
158GDS B EAV=967.3 45
158GD G 897.61 9 41.2 21[E1] C
158GD cG $%I|g=12.5~{I18}
158GDS G CC=0.001394 20$KC=0.001195 17$LC=0.0001567 22$MC=3.37E-5 5$NC+=9.00E-6
158GDS G NC=7.73E-6 11$OC=1.196E-6 17$PC=8.01E-8 12
158GD G 977.14 9 54.3 27E1 C
158GD cG $%I|g=16.5~{I22}
158GDS G CC=0.001186 17$KC=0.001017 15$LC=0.0001329 19$MC=2.85E-5 4$NC+=7.64E-6
158GDS G NC=6.55E-6 10$OC=1.015E-6 15$PC=6.83E-8 10
158GD L 1023.66 8 2-
158GD B 25 3 7.23 6
158GDS B EAV=946.4 45
158GD G 944.15 10 100. E1 C
158GD cG $%I|g=30~{I4}
158GDS G CC=0.001266 18$KC=0.001085 16$LC=0.0001420 20$MC=3.05E-5 5$NC+=8.16E-6
158GDS G NC=7.00E-6 10$OC=1.084E-6 16$PC=7.28E-8 11
158GD L 1041.62 8 3-
158GD B 0.31 25 9.1 4
158GDS B EAV=938.3 45
158GD cB LOGFT$Value highly questionable for a (1-) to 3- transition
158GD G 780.13 19 3.0 3 E1 C
158GD cG $%I|g=0.91~{I15}
158GDS G CC=0.00183 3$KC=0.001571 22$LC=0.000207 3$MC=4.46E-5 7$NC+=1.191E-5 17
158GDS G NC=1.023E-5 15$OC=1.580E-6 23$PC=1.050E-7 15
158GD G 962.09 9 6.3 4 E1 C
158GD cG $%I|g=1.9~{I3}
158GDS G CC=0.001221 18$KC=0.001047 15$LC=0.0001369 20$MC=2.94E-5 5$NC+=7.87E-6
158GDS G NC=6.75E-6 10$OC=1.046E-6 15$PC=7.03E-8 10
158GD L 1187.13 8 2+
158GD B 0.9 LT 8.5 GT
158GDS B EAV=873.2 45
158GD DB IB$VALUE 0.4 5 WAS GIVEN AS LIMIT
158GD G 925.6 3 0.40 11 [E2] C
158GD cG $%I|g=0.12~{I4}
158GDB G FLAG=AB$
158GDS G CC=0.00324 5$KC=0.00273 4$LC=0.000401 6$MC=8.74E-5 13$NC+=2.33E-5 4
158GDS G NC=2.00E-5 3$OC=3.06E-6 5$PC=1.89E-7 3
158GD G 1107.63 9 17.1 8 E2 C
158GD cG $%I|g=5.2~{I7}
158GDS G CC=0.00223 4$KC=0.00189 3$LC=0.000268 4$MC=5.81E-5 9$NC+=1.592E-5 23
158GDS G NC=1.334E-5 19$OC=2.05E-6 3$PC=1.308E-7 19$IPC=3.97E-7 6
158GD G 1187.1 2 14.7 10 E2 C
158GD cG $%I|g=4.5~{I7}
158GDB G FLAG=AB$
158GDS G CC=0.00194 3$KC=0.001643 23$LC=0.000231 4$MC=5.00E-5 7$NC+=1.759E-5 25
158GDS G NC=1.148E-5 16$OC=1.767E-6 25$PC=1.140E-7 16$IPC=4.24E-6 7
158GD L 1196.00 11 0+
158GD B 0.87 14 8.56 7
158GDS B EAV=869.2 45
158GD G 1116.49 10 4.2 3 E2 C
158GD cG $%I|g=1.28~{I19}
158GDS G CC=0.00219 3$KC=0.00186 3$LC=0.000263 4$MC=5.71E-5 8$NC+=1.580E-5 23
158GDS G NC=1.311E-5 19$OC=2.01E-6 3$PC=1.287E-7 18$IPC=5.53E-7 8
158GD L 1259.95 12 2+
158GD B 0.39 12 8.85 14
158GDS B EAV=840.7 45
158GD G 998.47 15 1.27 14 E2 C
158GD cG $%I|g=0.39~{I7}
158GDS G CC=0.00276 4$KC=0.00233 4$LC=0.000337 5$MC=7.34E-5 11$NC+=1.96E-5 3
158GDS G NC=1.682E-5 24$OC=2.58E-6 4$PC=1.614E-7 23
158GD G 1180.4 3 1.1 2 M1 C
158GD cG $%I|g=0.33~{I8}
158GDB G FLAG=AB$
158GDS G CC=0.00309 5$KC=0.00263 4$LC=0.000355 5$MC=7.65E-5 11$NC+=2.46E-5 4
158GDS G NC=1.762E-5 25$OC=2.75E-6 4$PC=1.90E-7 3$IPC=4.05E-6 7
158GD G 1259.9 3 1.3 2 E2 C
158GD cG $%I|g=0.40~{I8}
158GDB G FLAG=B
158GDS G CC=0.001734 25$KC=0.001462 21$LC=0.000203 3$MC=4.40E-5 7$NC+=2.51E-5 4
158GDS G NC=1.011E-5 15$OC=1.559E-6 22$PC=1.014E-7 15$IPC=1.337E-5 20
158GD L 1263.67 12 1-
158GD B 3.7 6 7.87 7
158GDS B EAV=839.1 45
158GD G 1184.1 3 10.1 12 E1(+M2) +0.11 6 C
158GD cG $%I|g=3.1~{I6}
158GDB G FLAG=AB$
158GDS G CC=0.00093 11$KC=0.00078 9$LC=0.000102 13$MC=2.2E-5 3$NC+=2.43E-5 6
158GDS G NC=5.1E-6 7$OC=7.8E-7 10$PC=5.3E-8 7$IPC=1.84E-5 4
158GD G 1263.61 20 7.3 6 E1 C
158GD cG $%I|g=2.2~{I4}
158GDB G FLAG=B
158GDS G CC=0.000796 12$KC=0.000638 9$LC=8.25E-5 12$MC=1.770E-5 25$NC+=5.86E-5 9
158GDS G NC=4.07E-6 6$OC=6.31E-7 9$PC=4.30E-8 6$IPC=5.39E-5 8
158GD L 1265.48 10 3+
158GD B 0.7 6 9.7 4 1U
158GDS B EAV=827.7 44
158GD G 1004.0 3 1.6 3 E2+M1 -23 +19-7 C
158GD cG $%I|g=0.49~{I11}
158GDB G FLAG=AB$
158GDS G CC=0.00273 11$KC=0.00231 10$LC=0.000334 12$MC=7.3E-5 3$NC+=1.93E-5 7
158GDS G NC=1.66E-5 6$OC=2.55E-6 10$PC=1.60E-7 8
158GD G 1186.0 3 9.8 18 E2 C
158GD cG $%I|g=3.0~{I7}
158GDB G FLAG=AB$
158GDS G CC=0.00195 3$KC=0.001646 23$LC=0.000231 4$MC=5.01E-5 7$NC+=1.752E-5 25
158GDS G NC=1.150E-5 17$OC=1.770E-6 25$PC=1.142E-7 16$IPC=4.14E-6 7
158GD L 1402.97 14 3-
158GD B 0.11 5 9.29 20
158GDS B EAV=777.3 45
158GD cB LOGFT$Value highly questionable for a (1-) to 3- transition
158GD G 1141.5 3 0.61 9 E1 C
158GD cG $%I|g=0.19~{I4}
158GDS G CC=0.000897 13$KC=0.000764 11$LC=9.93E-5 14$MC=2.13E-5 3$NC+=1.262E-5 1
158GDS G NC=4.89E-6 7$OC=7.59E-7 11$PC=5.15E-8 8$IPC=6.92E-6 12
158GD G 1323.46 14 0.76 6 E1 C
158GD cG $%I|g=0.23~{I4}
158GDS G CC=0.000770 11$KC=0.000588 9$LC=7.60E-5 11$MC=1.629E-5 23$NC+=8.95E-5 1
158GDS G NC=3.74E-6 6$OC=5.81E-7 9$PC=3.97E-8 6$IPC=8.51E-5 12
158GD L 1451.51 21 0+
158GD B 0.08 3 9.38 17
158GDS B EAV=755.8 45
158GD G 1372.0 2 0.25 10 E2 @C
158GD cG $%I|g=0.08~{I4}
158GDS G CC=0.001492 21$KC=0.001239 18$LC=0.0001705 24$MC=3.68E-5 6$NC+=4.57E-5
158GDS G NC=8.46E-6 12$OC=1.307E-6 19$PC=8.59E-8 12$IPC=3.59E-5 5
158GD L 1517.5 3 2+
158GD B 0.066 17 9.41 12
158GDS B EAV=726.8 44
158GD G 1438.0 3 0.12 4
158GD cG $%I|g=0.036~{I13}
158GD G 1517.4 5 0.10 3 E2
158GD cG $%I|g=0.030~{I10}
158GDS G CC=0.001280 18$KC=0.001022 15$LC=0.0001391 20$MC=3.00E-5 5$NC+=8.81E-5
158GDS G NC=6.90E-6 10$OC=1.067E-6 15$PC=7.09E-8 10$IPC=8.01E-5 12
158GD L 1793.50 8 2-
158GD B 7.0 8 7.12 5
158GDS B EAV=606.5 44
158GD G 528.05 10 5.1 3 E1 C
158GD cG $%I|g=1.55~{I22}
158GDS G CC=0.00417 6$KC=0.00356 5$LC=0.000479 7$MC=0.0001032 15$NC+=2.75E-5 4
158GDS G NC=2.36E-5 4$OC=3.63E-6 5$PC=2.35E-7 4
158GD G 606.39 9 13.2 7 E1 C
158GD cG $%I|g=4.0~{I6}
158GDS G CC=0.00309 5$KC=0.00264 4$LC=0.000353 5$MC=7.59E-5 11$NC+=2.02E-5 3
158GDS G NC=1.739E-5 25$OC=2.68E-6 4$PC=1.751E-7 25
158GD G 751.70 16 0.94 15 M1+E2 C
158GD cG $%I|g=0.29~{I6}
158GDS G CC=0.0071 20$KC=0.0060 18$LC=0.00086 20$MC=0.00019 5$NC+=5.0E-5 12
158GDS G NC=4.3E-5 10$OC=6.6E-6 17$PC=4.3E-7 14
158GD G 769.87 12 2.16 16 E2 C
158GD cG $%I|g=0.66~{I10}
158GDS G CC=0.00486 7$KC=0.00406 6$LC=0.000625 9$MC=0.0001368 20$NC+=3.63E-5 5
158GDS G NC=3.13E-5 5$OC=4.74E-6 7$PC=2.80E-7 4
158GD G 816.33 16 1.22 8 [M1,E2] C
158GD cG $%I|g=0.37~{I6}
158GDS G CC=0.0059 16$KC=0.0050 14$LC=0.00070 17$MC=0.00015 4$NC+=4.1E-5 10
158GDS G NC=3.5E-5 8$OC=5.4E-6 13$PC=3.5E-7 11
158GD G 1531.4 5 0.20 4 [M2] C
158GD cG $%I|g=0.061~{I15}
158GDS G CC=0.00387 6$KC=0.00326 5$LC=0.000455 7$MC=9.86E-5 14$NC+=6.27E-5 9
158GDS G NC=2.27E-5 4$OC=3.54E-6 5$PC=2.42E-7 4$IPC=3.62E-5 6
158GD G 1714.1 2 0.61 7
158GD cG $%I|g=0.19~{I4}
158GD G 1793.5 15 0.05 2 [M2]
158GD cG $%I|g=0.015~{I7}
158GDS G CC=0.00271 4$KC=0.00222 4$LC=0.000306 5$MC=6.63E-5 10$NC+=0.0001180 17
158GDS G NC=1.527E-5 22$OC=2.38E-6 4$PC=1.633E-7 24$IPC=0.0001002 15
158GD L 1847.80 12 1+
158GD B 2.6 3 7.49 6
158GDS B EAV=583.1 43
158GD G 824.11 10 4.3 3 E1 C
158GD cG $%I|g=1.31~{I19}
158GDS G CC=0.001646 23$KC=0.001410 20$LC=0.000186 3$MC=3.99E-5 6$NC+=1.066E-5 1
158GDS G NC=9.15E-6 13$OC=1.415E-6 20$PC=9.44E-8 14
158GD G 870.70 20 4.2 4 C
158GD cG $%I|g=1.28~{I21}
158GDB G FLAG=AB$
158GD G 1768.5 5 0.13 3
158GD cG $%I|g=0.040~{I11}
158GD L 1894.39 10 2+
158GD B 0.95 11 7.88 6
158GDS B EAV=563.1 44
158GD G 852.81 12 1.32 9 C
158GD cG $%I|g=0.40~{I6}
158GD G 870.67 11 0.81 9 C
158GD cG $%I|g=0.25~{I5}
158GDB G FLAG=AB$
158GD G 917.28 16 0.93 13 C
158GD cG $%I|g=0.28~{I6}
158GD G 1814.8 4 0.12 3
158GD cG $%I|g=0.036~{I11}
158GD L 1930.16 9 1+
158GD B 7.6 8 6.94 5
158GDS B EAV=547.9 43
158GD G 743.02 9 12.0 6 M1+E2 +0.17 15 C
158GD cG $%I|g=3.6~{I5}
158GDS G CC=0.0093 3$KC=0.0079 3$LC=0.00108 3$MC=0.000234 7$NC+=6.29E-5 18
158GDS G NC=5.39E-5 16$OC=8.40E-6 25$PC=5.73E-7 20
158GD G 906.50 10 6.1 4 E1 C
158GD cG $%I|g=1.9~{I3}
158GDS G CC=0.001368 20$KC=0.001172 17$LC=0.0001537 22$MC=3.30E-5 5$NC+=8.83E-6
158GDS G NC=7.58E-6 11$OC=1.173E-6 17$PC=7.86E-8 11
158GD G 953.03 10 6.6 4 (E1) C
158GD cG $%I|g=2.0~{I3}
158GDS G CC=0.001243 18$KC=0.001066 15$LC=0.0001395 20$MC=3.00E-5 5$NC+=8.01E-6
158GDS G NC=6.88E-6 10$OC=1.065E-6 15$PC=7.16E-8 10
158GD G 1850.3 4 0.50 10
158GD cG $%I|g=0.15~{I4}
158GD G 1930.2 6 0.15 3
158GD cG $%I|g=0.046~{I11}
158GD L 1964.14 8 2+
158GD B 6.6 7 6.96 5
158GDS B EAV=533.4 43
158GD G 698.63 12 3.52 19E2+M1 C
158GD cG $%I|g=1.07~{I15}
158GDS G CC=0.0085 25$KC=0.0072 22$LC=0.00104 24$MC=0.00023 5$NC+=6.0E-5 14
158GDS G NC=5.2E-5 12$OC=8.0E-6 20$PC=5.1E-7 17
158GD G 776.98 15 2.6 3 M1 C
158GD cG $%I|g=0.79~{I14}
158GDS G CC=0.00842 12$KC=0.00717 10$LC=0.000981 14$MC=0.000212 3$NC+=5.69E-5 8
158GDS G NC=4.88E-5 7$OC=7.60E-6 11$PC=5.20E-7 8
158GD G 922.51 11 5.4 6 (E1) C
158GD cG $%I|g=1.6~{I3}
158GDS G CC=0.001323 19$KC=0.001134 16$LC=0.0001485 21$MC=3.19E-5 5$NC+=8.53E-6
158GDS G NC=7.32E-6 11$OC=1.134E-6 16$PC=7.61E-8 11
158GD G 940.6 3 1.1 3 C
158GD cG $%I|g=0.33~{I10}
158GD G 986.96 10 4.5 3 E1 C
158GD cG $%I|g=1.37~{I20}
158GDS G CC=0.001164 17$KC=0.000998 14$LC=0.0001304 19$MC=2.80E-5 4$NC+=7.49E-6
158GDS G NC=6.43E-6 9$OC=9.96E-7 14$PC=6.71E-8 10
158GD G 1702.8 2 0.45 6 C
158GD cG $%I|g=0.14~{I3}
158GDB G FLAG=H$
158GD G 1884.62 20 4.1 2 C
158GD cG $%I|g=1.25~{I17}
158GD G 1964.2 3 0.44 5
158GD cG $%I|g=0.134~{I23}
158GD L 2023.93 11 1+
158GD B 3.5 4 7.17 6
158GDS B EAV=508.1 43
158GD G 763.94 12 2.10 15 E2 C
158GD cG $%I|g=0.64~{I10}
158GDB G FLAG=S
158GDS G CC=0.00495 7$KC=0.00413 6$LC=0.000637 9$MC=0.0001395 20$NC+=3.70E-5 6
158GDS G NC=3.19E-5 5$OC=4.84E-6 7$PC=2.84E-7 4
158GD G 827.93 16 1.29 13 C
158GD cG $%I|g=0.39~{I7}
158GDB G FLAG=T
158GD G 1944.47 20 5.4 3 C
158GD cG $%I|g=1.64~{I23}
158GD G 2023.9 3 3.08 18
158GD cG $%I|g=0.94~{I13}
158GD L 2215.5 3 1 ?
158GD G 2136.4 9 0.42 14 ?
158GD cG $%I|g=0.13~{I5}
158GD G 2215.3 3 0.37 5 ?
158GD cG $%I|g=0.112~{I21}
158GD L 2221.63 22 2-
158GD B 0.14 4 8.32 13
158GDS B EAV=425.5 42
158GD cB IB 0.198 from TAGS data (1997Gr09).
158GD G 1034.5 2 0.48 10E1 C
158GD cG $%I|g=0.15~{I4}
158GDS G CC=0.001066 15$KC=0.000915 13$LC=0.0001193 17$MC=2.56E-5 4$NC+=6.85E-6
158GDS G NC=5.88E-6 9$OC=9.11E-7 13$PC=6.15E-8 9
158GD L 2269.29 14 (0,1,2)+
158GD B 1.63 23 7.19 7
158GDS B EAV=405.8 41
158GD cB IB 2.24 from TAGS data (1997Gr09).
158GD G 245.33 17 0.32 4 M1,E2 0.14 3 C
158GD cG $%I|g=0.097~{I18}
158GDS G KC=0.11 3$LC=0.0215 19$MC=0.0048 6$NC+=0.00126 12
158GDS G NC=0.00109 11$OC=0.000161 8$PC=8.E-6 3
158GD G 1005.4 3 4.1 5 C
158GD cG $%I|g=1.25~{I22}
158GDB G FLAG=AB$
158GD G 1292.3 2 0.89 11 C
158GD cG $%I|g=0.27~{I5}
158GD G 2189.3 8 0.09 2
158GD cG $%I|g=0.027~{I7}
158GD L 2325.33 10 1-,2+
158GD B 3.2 4 6.82 6
158GDS B EAV=383.0 41
158GD cB IB 4.45 from TAGS data (1997Gr09).
158GD G 922.4 3 1.02 12 C
158GD cG $%I|g=0.31~{I6}
158GDB G FLAG=AB
158GD G 1061.68 16 1.08 9 C
158GD cG $%I|g=0.33~{I5}
158GD G 1138.3 3 0.71 9 C
158GD cG $%I|g=0.22~{I4}
158GD G 1284.0 2 0.21 3
158GD cG $%I|g=0.064~{I13}
158GD G 1301.68 14 0.61 6 C
158GD cG $%I|g=0.19~{I3}
158GD G 1347.95 13 5.5 3 C
158GD cG $%I|g=1.67~{I24}
158GD G 2246.1 3 1.53 11
158GD cG $%I|g=0.46~{I7}
158GD G 2326.0 15 0.06 2
158GD cG $%I|g=0.018~{I7}
158GD L 2340.3 3 2+ ?
158GD G 2260.7 3 0.82 8 ?
158GD cG $%I|g=0.25~{I4}
158GD G 2340.5 10 0.10 3 ?
158GD cG $%I|g=0.030~{I10}
158GD L 2395.40 13 (3+)
158GD B 0.32 5 8.28 8 1U
158GDS B EAV=362.4 39
158GD G 1353.64 14 0.39 5 C
158GD cG $%I|g=0.119~{I22}
158GD G 1372.0 2 0.44 10 @C
158GD cG $%I|g=0.13~{I4}
158GD G 2315.3 10 0.07 3
158GD cG $%I|g=0.021~{I10}
158GD G 2395.6 5 0.17 3 &
158GD cG $%I|g=0.052~{I12}
158GD L 2447.30 25 1
158GD B 1.55 18 6.95 6
158GDS B EAV=333.9 40
158GD G 2367.7 3 2.62 14
158GD cG $%I|g=0.80~{I11}
158GD G 2447.4 4 2.54 20
158GD cG $%I|g=0.77~{I12}
158GD L 2450.9 4 1,2+
158GD B 0.44 10 7.49 10
158GDS B EAV=332.4 40
158GD G 1263.6 4 0.7 3 C
158GD cG $%I|g=0.21~{I10}
158GDB G FLAG=B
158GD G 2451.2 6 0.75 2
158GD cG $%I|g=0.23~{I3}
158GD L 2475.5 3 1,2+
158GD B 0.17 3 7.86 8
158GDS B EAV=322.7 40
158GD G 1215.7 4 0.28 6 C
158GD cG $%I|g=0.085~{I22}
158GD G 2395.6 5 0.17 3 &
158GD cG $%I|g=0.052~{I12}
158GD G 2475.5 5 0.13 2
158GD cG $%I|g=0.040~{I8}
158GD L 2499.19 12 (1,2)+
158GD B 0.55 7 7.31 6
158GDS B EAV=313.3 40
158GD G 1233.7 2 0.52 11 C
158GD cG $%I|g=0.16~{I4}
158GD G 1312.08 12 0.89 7 C
158GD cG $%I|g=0.27~{I4}
158GD G 1475.2 4 0.16 4
158GD cG $%I|g=0.049~{I14}
158GD G 2421.0 11 0.05 2
158GD cG $%I|g=0.015~{I7}
158GD G 2499.0 10 0.208 12
158GD cG $%I|g=0.063~{I9}
158GD L 2600.3 12 1(+) ?
158GD G 2520.5 12 0.023 12 ?
158GD cG $%I|g=0.007~{I4}
158GD G 2601.0 12 0.097 18 ?
158GD cG $%I|g=0.029~{I7}
158GD L 2620.92 24
158GD B 0.13 3 7.72 11
158GDS B EAV=266.0 39
158GD cB IB 0.27 from TAGS data (1997Gr09).
158GD G 1433.7 3 0.21 8 C
158GD cG $%I|g=0.06~{I3}
158GD G 1596.9 7 0.08 2
158GD cG $%I|g=0.024~{I7}
158GD G 1644.0 4 0.12 4
158GD cG $%I|g=0.036~{I13}
158GD G 2542.0 16 0.035 11
158GD cG $%I|g=0.011~{I4}
158GD L 2642 2 ?
158GD G 2564 2 0.030 10 ?
158GD cG $%I|g=0.009~{I4}
158GD G 2640 2 0.037 15 ?
158GD cG $%I|g=0.011~{I5}
158GD L 2670.6 3
158GD B 0.075 18 7.87 11
158GDS B EAV=247.1 38
158GD cB IB 0.159 from TAGS data (1997Gr09).
158GD G 1693.4 3 0.21 5
158GD cG $%I|g=0.064~{I18}
158GD G 2673 2 0.040 16
158GD cG $%I|g=0.012~{I6}
158GD L 2761.94 22
158GD B 0.22 4 7.21 9
158GDS B EAV=212.9 37
158GD cB IB 0.51 from TAGS data (1997Gr09).
158GD G 1738.0 3 0.42 8 C
158GD cG $%I|g=0.13~{I3}
158GD G 1785.0 3 0.24 4 C
158GD cG $%I|g=0.073~{I16}
158GD G 2764 2 0.062 12
158GD cG $%I|g=0.019~{I5}
158GD L 2823.5 6 1- ?
158GD G 2743.8 15 0.21 2 ?
158GD cG $%I|g=0.064~{I11}
158GD G 2824 2 0.11 2 ?
158GD cG $%I|g=0.033~{I8}
158GD L 2844.2 8 ?
158GD G 2844 2 0.069 14 ?
158GD cG $%I|g=0.021~{I5}
158GD L 2859.6 6
158GD B 0.036 10 7.76 13
158GDS B EAV=177.5 36
158GD cB IB 0.110 from TAGS data (1997Gr09).
158GD G 1835.9 6 0.12 3 C
158GD cG $%I|g=0.036~{I11}