188OS 188IR EC DECAY (41.5 H) 1975TH06,1969YA02,1964HA0618NDS 201806
188OS H TYP=FUL$AUT=F.G. KONDEV, S. JUUTINEN, D.J. HARTLEY$
188OS2 H CIT=NDS 150, 1 (2018)$CUT=1-Feb-2018$
188OS c 1975Th06: |g, |g|g data
188OS c 1969Ya02: |g, |g|g, |g|g(|q), ce, |b{++} data
188OS c 1964Ha06: ce data
188OS c Others:
188OS c |g: 1980Be27, 1972BaZX, 1963Gr22, 1962Wa20
188OS2c (also 1962Wa37), 1961Kr02, 1958Di44, 1958Fi32, 1955Sm42, 1950Ch11
188OS c |g|g: 1973ArZT, 1962Wa20, 1958Fi32
188OS c |g|g(t): 1971Bo13
188OS c |g|g(|q): 1971Kr01 (also 1970KrZW), 1975PrZU, 1963Ya01
188OS c |g(|q) on oriented nuclei: 1992Ka49 (also 1992Ka48)
188OS c |g(|q,H,T): 1980Be27
188OS c |g(|q,H,T) and NMR: 1985Ed02, 1988Oh05
188OS c ce: 1966Ha08, 1964Sa30, 1962Gr02, 1961Kr02,
188OS2c 1960Ma28, 1959Ka09, 1958Di44, 1958Fi32, 1954Na25, 1954NiZZ
188OS c ce ce: 1962Wa20
188OS c ce |g: 1962Gr02
188OS c ce |g(t): 1970Be18 (also 1971Bb09)
188OS c ce |g(|q): 1963Ya01 (also 1965Ya01,1963Ya07)
188OS c |b{++}: 1970Ag03, 1962Wa20, 1960Ka14, 1950Ch11
188OS c |b{++} |g: 1970Ag03, 1966Dz12
188OS cL E$From least-squares fit to E|g's
188OS cL J$From adopted levels
188OS cG E$From adopted gammas.
188OS cG RI$From 1975Th06, unless otherwise stated.
188OS cG M,MR$From adopted gammas, unless otherwise stated
188OS cG E(A)$Reported only in the ce data of 1964Ha06.
188OS2cG Intensity not given by the authors.
188OS cG E(B)$Reported by 1969Ya02 and 1964Ha06
188OS cG E(D)$Reported only by 1975Th06
188OS cG $Experimental values of |a's given in the comments were deduced by the
188OS2cG evaluators using I|g's from 1975Th06 and Ice's from 1969Ya02 and
188OS3cG 1964Ha06. The ce data were normalized to 478|g, using |a(K)(E2)=0.0191.
188OS4cG The Ice's from 1964Ha06 were related to those from 1969Ya02, using
188OS5cG different normalization factors: 0.33 below 1 MeV, 0.39 between 1-2 MeV
188OS6cG and 0.48 above 2 MeV. Uncertainties on Ice's are not given by either
188OS7cG 1964Ha06 or 1969Ya02, 25-50% assumed by the evaluator in determining
188OSxcG |a(exp)'s
188OS DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
188IR P 0.0 1- 41.5 H 5 2792 9
188OS N 0.146 8 1.0 1.0
188OS cN NR$from I(|e+|b{++})(g.s.)=0.64 {I6}, deduced from %I|b{++}=0.058
188OS2cN (1969Ya02) and by assuming a 10% uncertainty, and
188OS3cN I(|e)/I|b{++}(theory)=10.01 {I19} (1971Go40).
188OS PN
188OS G 85.0 A ?
188OS G 95.6 A ?
188OS G 123.1 A ?
188OS G 150.5 A ?
188OS G 158.0 A ?
188OS G 189.3 A ?
188OS G 346.7 A ?
188OS G 351.7 (E2) 0.0576 A ?
188OSS G KC=0.0395 6$LC=0.01377 20$MC=0.00338 5
188OSS G NC=0.000815 12$OC=0.0001281 18$PC=4.06E-6 6
188OS cG M$|a(K)exp=0.035 {I7}, K/L2=5.9 {I12}.
188OS G 352.7 A ?
188OS G 379.6 A ?
188OS G 389.94 15 0.13 3 D
188OS2 G %IG=0.019 5
188OS G 503.0 A ?
188OS G 586.44 15 0.24 4 (M1) 0.0438
188OS2 G %IG=0.035 7
188OSS G KC=0.0364 6$LC=0.00570 8$MC=0.001303 19
188OSS G NC=0.000318 5$OC=5.50E-5 8$PC=4.15E-6 6
188OS cG M$|a(K)exp|?0.055.
188OS G 623.75 8 1.76 19E2(+M1) 0.0373
188OS2 G %IG=0.26 3
188OSS G KC=0.0311 5$LC=0.00485 7$MC=0.001109 16
188OSS G NC=0.000271 4$OC=4.68E-5 7$PC=3.53E-6 5
188OS cG M$|a(K)exp=0.012 {I3}
188OS G 646.14 15 0.21 6 D
188OS2 G %IG=0.031 9
188OS G 695.43 15 0.24 4 D
188OS2 G %IG=0.035 7
188OS G 776.80 25 0.36 12
188OS2 G %IG=0.053 18
188OS G 777.93 20 0.65 12
188OS2 G %IG=0.095 19
188OS G 781.90 20 1.18 21M1(+E2) 0.0209
188OS2 G %IG=0.17 4
188OSS G KC=0.01744 25$LC=0.00270 4$MC=0.000617 9
188OSS G NC=0.0001506 22$OC=2.61E-5 4$PC=1.97E-6 3
188OS cG M$|a(K)exp=0.018 {I6}
188OS G 905.9 A ?
188OS G 933.95 20 1.01 20 D
188OS2 G %IG=0.15 3
188OS G 935.26 20 1.14 22 D
188OS2 G %IG=0.17 4
188OS G 943.6 A ?
188OS G 972.14 20 0.19 6 D
188OS2 G %IG=0.028 9
188OS G 1132.5 4 0.19 7 D
188OS2 G %IG=0.028 11
188OS G 1193.5 A ?
188OS G 1205.5 A ?
188OS G 1336.38 15 0.95 9
188OS2 G %IG=0.139 15
188OS G 1349.54 15 0.43 6 D
188OS2 G %IG=0.063 10
188OS G 1430.0 1.7 4 B ?
188OS2 G %IG=0.25 6
188OS G 1445.8 2.8 4 B ?
188OS2 G %IG=0.41 7
188OS G 1704.9 7.1 10(E2) 0.00194 B ?
188OS2 G %IG=1.04 16
188OSS G KC=0.001499 21$LC=0.000230 4$MC=5.25E-5 8
188OSS G NC=1.279E-5 18$OC=2.20E-6 3$PC=1.595E-7 23$IPC=0.0001427 20
188OS cG M$|a(K)exp|?0.0013.
188OS G 1720.7 A ?
188OS G 1731.6 A ?
188OS G 1788.9 A ?
188OS G 1904.0 4 0.92 9 D
188OS2 G %IG=0.135 15
188OS G 1971.7 5 1.14 11
188OS2 G %IG=0.167 19
188OS G 2040.76 25 3.3 3 D
188OS2 G %IG=0.48 5
188OS G 2133.7 5 0.65 8
188OS2 G %IG=0.095 13
188OS G 2344.2 A ?
188OS G 2385.7 4 0.13 4 D
188OS2 G %IG=0.019 6
188OS G 2406.2 3 0.24 5 D
188OS2 G %IG=0.035 8
188OS G 2486.8 3 0.21 6
188OS2 G %IG=0.031 9
188OS G 2504.87 25 0.81 4
188OS2 G %IG=0.119 9
188OS G 2565.6 5 0.08 4 D
188OS2 G %IG=0.012 6
188OS G 2699.7 A ?
188OS L 0.0 0+
188OS E 0.058 6 0.58 6 9.63 4 0.64 6
188OSS E EAV=803.5 40$CK=0.7437 11$CL=0.12602 20$CM+=0.03949 7
188OS cE IB$from %I|b{++}=0.058 (1969Ya02) and by assuming a 10% uncertainty
188OS cE IE$from I(|e)/I|b{++}(theory)=10.01 {I19} (1971Go40)
188OS L 155.031 24 2+ 0.704 NS 7
188OS cL T$From adopted levels. Values measured in {+188}Ie |e decay:
188OS2cL 0.714 ns {I21} (|e|g(t),1971Bo13) and 0.710 ns {I30}
188OS3cL (|ece(t),1970Be18).
188OS E 0.21 3 2.8 4 8.90 6 3.0 4 C
188OSS E EAV=735.1 40$CK=0.7609 10$CL=0.12928 18$CM+=0.04053 6
188OS cE E$Others: measured E(|b{++}): 1650 {I30} (1970Ag03), 1605 {I20}
188OS2cE (1969Ya02), 1656 {I10} (1962Wa20), 1656 (1966Dz12)
188OS cE IB$from I|b{++}/I|g(478|g)=0.014 (1969Ya02) by assuming 10% uncertainty
188OS cE IE$from I(|e)/I|b{++}(theory)=13.5 {I3} (1971Go40)
188OS cE TI$ -3 {I5} from intensity balance
188OS G 155.044 4 202 16E2 0.810 C
188OS2 G %IG=29.6 15
188OSS G KC=0.324 5$LC=0.367 6$MC=0.0931 13
188OSS G NC=0.0224 4$OC=0.00334 5$PC=2.95E-5 5
188OS cG E$Others: 155.05 {I4} (1975Th06) and 155.03 {I3} (ce data,1962Gr02)
188OS cG M$ |a(K)exp=0.39 {I8}; L1/L2=0.195 (1966St01); L2/L3=1.38 {I5}
188OS2cG (1966St01); L1/L3=0.269 {I15} (1966St01).
188OS3cG 155|g(|q): A{-2}=-0.03 {I1} (1985Ed02)
188OS L 477.95 3 4+ 17.7 PS 10
188OS cL T$From adopted levels.
188OS G 322.92 2 11.0 9 E2 0.0736 C
188OS2 G %IG=1.61 16
188OSS G KC=0.0490 7$LC=0.0187 3$MC=0.00461 7
188OSS G NC=0.001112 16$OC=0.0001736 25$PC=4.97E-6 7
188OS cG E$Other: 322.91 {I4} in 1975Th06
188OS cG M$|a(K)exp=0.040 {I9}, K/M=10 {I2}.
188OS2cG 323|g(|q): A{-2}=-0.08 {I7} (1985Ed02)
188OS3cG (323ce)(155|g)(|q) gives A{-2}=0.085 {I37},A{-4}=0.059 {I52} (1963Ya01)
188OS L 633.033 23 2+
188OS E 0.12 1 5.3 6 8.45 5 5.4 6 C
188OSS E EAV=524.8 40$CK=0.7975 5$CL=0.1369 2$CM+=0.04300 4
188OS cE IB$from I|b{++}/I|g(478|g)=0.0082 (1969Ya02) by assuming 10%
188OS2cE uncertainty
188OS cE IE$from I(|e)/I|b{++}(theory)=43.8 {I14} (1971Go40)
188OS cE E$Others: measured E(|b{++}): 1211 {I45} (1962Wa20), 1125 {I20}
188OS2cE (1969Ya02), 1030 {I50} (1970Ag03)
188OS cE TI$ 6 {I3} from intensity balance
188OS G 478.00 2 100 E2+M1+E0 -12 3 0.031 4 C
188OS2 G %IG=14.7 8
188OSS G KC=0.0193 4$LC=0.00500 8$MC=0.001203 18
188OSS G NC=0.000291 5$OC=4.70E-5 7$PC=2.04E-6 4
188OS cG E$477.99 {I4} in 1975Th06; 478.07 {I4} (ce data,1962Gr02)
188OS cG RI$I(E0)=0.19 {I17}, deduced from ce(K)(E0)/ce(K)(E2)=0.10 {I9}
188OSxcG (1963Ya01)
188OS cG M$478|g(|q): A{-2}=0.06 {I1} (1985Ed02).
188OS2cG A{-2}=-0.015 {I14}, A{-4}=0.288 {I21} (1971Kr01).
188OS3cG (478|g)(155ce)(|q): A{-2}=-0.018 {I11}, A{-4}=-0.186 {I17} (1963Ya01).
188OS4cG (478ce)(155|g)(|q): A{-2}=0.033 {I11}, A{-4}=0.000 {I14} (1963Ya01).
188OS5cG K/L/M=1/0.26/0.08 (1964Ha06).
188OS6cG |gce(|q) gives E0 strength parameter=2.2|*10{+-2} {I+8-14}
188OS7cG and ce(K)(E0)/ce(K)(E2)=0.10 {I9} (1963Ya01,1965Ya01)
188OS cG MR$(E2/M1) value from (478|g)(155|g)(|q) in 1971Kr01
188OS CG CC$0.031 4, deduced from EKC=0.023 3 (1959Ki44) and T/K=1.34 3 from
188OS2cG BrICC
188OS G 633.03 3 122 18E2 0.01305 C
188OS2 G %IG=17.9 23
188OSS G KC=0.01020 15$LC=0.00219 3$MC=0.000518 8
188OSS G NC=0.0001258 18$OC=2.07E-5 3$PC=1.092E-6 16
188OS cG E$633.02 {I10} in 1975Th06; 633.07 {I5} (ce data,1962Gr02)
188OS cG M$|a(K)exp=0.011 {I3}, L1/L2=2.4 {I4} (1962Gr02).
188OS2cG 633|g(|q): A{-2}=-0.27 {I2} (1985Ed02)
188OS L 789.96 3 3+
188OS E 0.0044 LT 1.5 LT 10.1 GT 1.5 LT 1U?
188OSS E EAV=468.5 39$CK=0.8020$CL=0.14805 9$CM+=0.04705 4
188OS G 157.0 B ?
188OS G 312.00 2 1.19 4 E2(+M1) 0.233 C
188OS2 G %IG=0.174 11
188OSS G KC=0.193 3$LC=0.0307 5$MC=0.00704 10
188OSS G NC=0.001720 24$OC=0.000297 5$PC=2.22E-5 4
188OS cG E$312.00 {I4} (1975Th06); 311.99 {I4} (ce data,1962Gr02)
188OS cG RI$From I|g(312.00|g)/I|g(634.97|g) in the adopted gammas and
188OS2cG and I|g(634.97|g)=34 {I5} in the {+188}Ir |e decay. Other: 1.34 {I13}
188OS3cG in 1975Th06
188OS cG M$|a(K)exp=0.055 {I14}, K/L3=13.3.
188OS G 634.97 4 34 5 E2+M1 -7 3 0.0134 9 C
188OS2 G %IG=5.0 8
188OSS G KC=0.0105 8$LC=0.00222 10$MC=0.000525 23
188OSS G NC=0.000127 6$OC=2.10E-5 10$PC=1.13E-6 9
188OS cG E$634.91 {I15} (1975Th06); 634.96 {I5} (ce data,1962Gr02)
188OS cG M$ce(K)(635)/ce(K)(633)=3.55 {I10} (1962Gr02).
188OS2cG 635|g(|q): A{-2}=0.12 {I6} (1985Ed02).
188OS3cG |a(K)exp=0.011 {I3}
188OS cG MR$from (635|g)(155|g)(|q): A{-2}=-0.312 {I30}, A{-4}=-0.003 {I19}
188OSxcG (1971Kr01)
188OS L 940.8 10 6+
188OS L 965.66 44+
188OS G 25.32 8 3.9E-7 13[E2] 3.06E3 S
188OS2 G %IG=5.7E-08 20
188OS2 G FL=940.8
188OSS G LC=2.31E3 4$MC=583 9
188OSS G NC=139.0 20$OC=20.3 3$PC=0.01613 23
188OS cG E$Not observed in {+188}Ir |e decay (41.5 h)
188OS G 175.4 0.27 3 [M1+E2] 1.139 A ?
188OS2 G %IG=0.040 5
188OSS G KC=0.942 14$LC=0.1520 22$MC=0.0349 5
188OSS G NC=0.00851 12$OC=0.001470 21$PC=0.0001095 16
188OS cG RI$From I|g(175.4|g)/I|g(487.70|g) in the adopted gammas and
188OS2cG and I|g(487.70|g)=1.44 {I15} in {+188}Ir |e decay
188OS G 332.62 5 0.49 5 E2 0.0675
188OS2 G %IG=0.072 9
188OSS G KC=0.0455 7$LC=0.01680 24$MC=0.00413 6
188OSS G NC=0.000997 14$OC=0.0001561 22$PC=4.63E-6 7
188OS cG M$|a(K)exp=0.066 {I22}. Weak L3 observed.
188OS G 487.70 6 1.44 15E2+M1 +3.2 +13-3 0.0284 20 C
188OS2 G %IG=0.211 25
188OSS G KC=0.0217 18$LC=0.00508 21$MC=0.00121 5
188OSS G NC=0.000294 11$OC=4.79E-5 21$PC=2.35E-6 21
188OS cG M$|a(K)exp=0.020 {I5}.
188OS G 810.60 8 1.16 12E2 0.00762 C
188OS2 G %IG=0.170 20
188OSS G KC=0.00612 9$LC=0.001155 17$MC=0.000270 4
188OSS G NC=6.56E-5 10$OC=1.096E-5 16$PC=6.57E-7 10
188OS cG M$|a(K)exp=0.0082 {I20}.
188OS L 1086.38 4 0+
188OS E 0.0003615 0.10 4 9.96 18 0.10 4 ?
188OSS E EAV=326.1 40$CK=0.81049 9$CL=0.14138 8$CM+=0.04450 3
188OS G 453.34 4 0.2476 25(E2) 0.0291
188OS2 G %IG=0.0363 20
188OSS G KC=0.0215 3$LC=0.00587 9$MC=0.001418 20
188OSS G NC=0.000343 5$OC=5.50E-5 8$PC=2.26E-6 4
188OS cG E$453.26 {I20} (1975Th06)
188OS cG RI$From I|g(453.34|g)/I|g(931.34|g) in the adopted gammas
188OS2cG and I|g(931.34|g)=1.79 {I17} in the {+188}Ir |e decay.
188OS3cG Other: 0.21 {I8} (1975Th06)
188OS cG M$|a(K)exp|?0.045. Deduced mult=M1,E2
188OS G 931.34 3 1.79 17[E2] 0.00573 DC
188OS2 G %IG=0.26 3
188OSS G KC=0.00465 7$LC=0.000829 12$MC=0.000193 3
188OSS G NC=4.68E-5 7$OC=7.88E-6 11$PC=4.99E-7 7
188OS cG E$931.33 {I8} (1975Th06)
188OS G 1086.5 E0 0.0001477
188OS cG E,TI$From Adopted levels
188OS L 1304.84 4 2+
188OS E 0.45 12 9.18 12 0.45 12
188OSS E CK=0.8111$CL=0.14305 7$CM+=0.04511 3
188OS G 218.5 5 0.069 3 [E2] 0.247
188OS2 G %IG=0.0101 7
188OSS G KC=0.1346 21$LC=0.0852 15$MC=0.0214 4
188OSS G NC=0.00514 9$OC=0.000782 14$PC=1.281E-5 20
188OS cG E$Not observed in {+188}Ir |e decay (41.5 h)
188OS G 514.88 4 1.20 4 E2(+M1) 3.3 GE 0.0229 18
188OS2 G %IG=0.176 11
188OSS G KC=0.0175 15$LC=0.00413 18$MC=0.00099 4
188OSS G NC=0.000239 10$OC=3.89E-5 18$PC=1.88E-6 18
188OS cG E$514.77 {I10} (1975Th06)
188OS cG RI$ 0.89 {I9} (1975Th06)
188OS cG M,MR$|a(K)exp=0.015 {I4}
188OS G 672.6 2 0.14 14[M1+E2] 0.0308 ?
188OS2 G %IG=0.021 21
188OSS G KC=0.0256 4$LC=0.00399 6$MC=0.000911 13
188OSS G NC=0.000222 4$OC=3.85E-5 6$PC=2.91E-6 4
188OS cG E$Not observed in {+188}Ir |e decay (41.5 h)
188OS G 827.0 3 1.12 11[E2] 0.00731
188OS2 G %IG=0.164 19
188OSS G KC=0.00588 9$LC=0.001100 16$MC=0.000257 4
188OSS G NC=6.24E-5 9$OC=1.044E-5 15$PC=6.31E-7 9
188OS cG E$Not observed in {+188}Ir |e decay (41.5 h)
188OS G 1149.80 9 3.6 7 M1+E2 2.1 LE 0.0062 17 C
188OS2 G %IG=0.53 11
188OSS G KC=0.0052 15$LC=0.00081 21$MC=0.00019 5
188OSS G NC=4.5E-5 12$OC=7.8E-6 20$PC=5.8E-7 17$IPC=1.55E-6 25
188OS cG E$From 1975Th06
188OS cG M,MR$|a(K)exp=0.0058 {I20}
188OS G 1304.8 2 0.9 3 (E2) 0.00298
188OS2 G %IG=0.13 5
188OSS G KC=0.00245 4$LC=0.000395 6$MC=9.08E-5 13
188OSS G NC=2.21E-5 3$OC=3.77E-6 6$PC=2.62E-7 4$IPC=1.78E-5 3
188OS cG E$1304.7 {I4} (1975Th06)
188OS cG RI$1.26 {I18} (1975Th06)
188OS cG M$|a(K)exp(1302.3|g+1304.7|g)=0.0026 {I7} consistent with E2
188OS2cG for both, but small M1 mixture cannot be ruled out
188OS L 1457.39 4 2+
188OS E 2.8 3 8.29 5 2.8 3
188OSS E CK=0.8100 1$CL=0.14430 8$CM+=0.04557 3
188OS G 491.64 8 0.35 6 [E2] 0.0238 D
188OS2 G %IG=0.051 10
188OSS G KC=0.01779 25$LC=0.00456 7$MC=0.001095 16
188OSS G NC=0.000265 4$OC=4.28E-5 6$PC=1.89E-6 3
188OS G 667.44 17 0.32 7 [M1] 0.0314 D
188OS2 G %IG=0.047 11
188OSS G KC=0.0261 4$LC=0.00407 6$MC=0.000929 13
188OSS G NC=0.000227 4$OC=3.93E-5 6$PC=2.96E-6 5
188OS G 824.39 8 11.2 7 M1(+E2) 1.2 LE 0.015 4 C
188OS2 G %IG=1.64 14
188OSS G KC=0.012 3$LC=0.0020 4$MC=0.00046 9
188OSS G NC=0.000111 21$OC=1.9E-5 4$PC=1.4E-6 4
188OS cG M,MR$|a(K)exp=0.014 {I4}. Other: 824|g(|q): A{-2}=0.2 {I3} (1985Ed02)
188OS G 979.35 13 0.64 11[E2] 0.00518 DC
188OS2 G %IG=0.094 17
188OSS G KC=0.00422 6$LC=0.000739 11$MC=0.0001712 24
188OSS G NC=4.16E-5 6$OC=7.03E-6 10$PC=4.52E-7 7
188OS G 1302.31 13 3.6 5 [E2+M1] 0.00584
188OS2 G %IG=0.53 8
188OSS G KC=0.00486 7$LC=0.000741 11$MC=0.0001688 24
188OSS G NC=4.12E-5 6$OC=7.14E-6 10$PC=5.45E-7 8$IPC=2.56E-5 4
188OS G 1457.49 9 11.9 10E2 0.00246
188OS2 G %IG=1.74 17
188OSS G KC=0.00200 3$LC=0.000315 5$MC=7.21E-5 10
188OSS G NC=1.755E-5 25$OC=3.00E-6 5$PC=2.13E-7 3$IPC=5.44E-5 8
188OS cG M$|a(K)exp=0.0018 {I4}. 1457|g(|q): A{-2}=-0.17 {I9} (1985Ed02)
188OS L 1462.50 4 (2-)
188OS E 6.3 6 7.94 5 6.3 6
188OSS E CK=0.8099 1$CL=0.14434 8$CM+=0.04559 3
188OS G 672.52 4 9.41 8 E1 0.00415 C
188OS2 G %IG=1.38 8
188OSS G KC=0.00349 5$LC=0.000515 8$MC=0.0001169 17
188OSS G NC=2.84E-5 4$OC=4.86E-6 7$PC=3.46E-7 5
188OS cG RI$ 9.8 {I7} (1975Th06)
188OS cG M$|a(K)exp=0.0023 {I6}.
188OS2cG 673|g(|q): A{-2}=-0.04 {I14} (1985Ed02)
188OS G 829.47 4 34.9 25E1 0.00276 C
188OS2 G %IG=5.1 5
188OSS G KC=0.00232 4$LC=0.000339 5$MC=7.67E-5 11
188OSS G NC=1.86E-5 3$OC=3.20E-6 5$PC=2.32E-7 4
188OS cG M$|a(K)exp=0.0029 {I7}, |a(L)exp=0.00044 {I22}.
188OS2cG (829|g+824|g)(633|g)(|q): A{-2}=0.21 {I2}, A{-4}=0.00 {I2},
188OS3cG 829|g(|q): A{-2}=-0.44 {I5} (1985Ed02)
188OS G 984.1 5 0.028 18[M2] 0.0290
188OS2 G %IG=0.004 3
188OS cG RI$From I|g(984.1|g)/I|g(829.47|g) in the adopted gammas
188OS2cG and I|g(829.47|g)=34.9 {I25} in the {+188}Ir |e decay.
188OSS G KC=0.0237 4$LC=0.00404 6$MC=0.000934 14
188OSS G NC=0.000228 4$OC=3.94E-5 6$PC=2.90E-6 4
188OS G 1307.64 15 1.02 14(E1) 1.27E-3 C
188OS2 G %IG=0.149 22
188OSS G KC=0.001019 15$LC=0.0001452 21$MC=3.28E-5 5
188OSS G NC=7.97E-6 12$OC=1.376E-6 20$PC=1.032E-7 15$IPC=6.22E-5 9
188OS cG M$|a(K)exp|?0.0019.
188OS G 1463.0 6 0.066 24[M2] 0.01031 ?
188OS2 G %IG=0.010 4
188OSS G KC=0.00850 12$LC=0.001375 20$MC=0.000316 5
188OSS G NC=7.73E-5 11$OC=1.336E-5 19$PC=1.001E-6 14$IPC=2.79E-5 4
188OS cG E$Not observed in {+188}Ir |e decay (41.5 h)
188OS L 1478.08 4 0+
188OS E 0.32 5 9.22 7 0.32 5
188OSS E CK=0.8098 1$CL=0.14448 9$CM+=0.04564 3
188OS G 845.05 4 1.449 22[E2] 0.00699 DC
188OS2 G %IG=0.212 12
188OSS G KC=0.00563 8$LC=0.001044 15$MC=0.000243 4
188OSS G NC=5.92E-5 9$OC=9.91E-6 14$PC=6.05E-7 9
188OS cG RI$From I|g(845.05|g)/I|g(1323.04|g) in the adopted gammas and
188OS2cG and I|g(1323.04|g)=2.75 {I22} in the {+188}Ir |e decay.
188OS3cG Other: 1.18 {I12} (1975Th06)
188OS G 1323.04 7 2.75 22(E2) 0.00291 C
188OS2 G %IG=0.40 4
188OSS G KC=0.00239 4$LC=0.000384 6$MC=8.81E-5 13
188OSS G NC=2.15E-5 3$OC=3.66E-6 6$PC=2.55E-7 4$IPC=2.11E-5 3
188OS cG M$|a(K)exp|?0.0017
188OS G 1478.0 E0 0.00073 4
188OS cG TI$from adopted gammas
188OS L 1620.47 5 2+
188OS E 2.70 25 8.19 5 2.70 25
188OSS E CK=0.8079 2$CL=0.1459 1$CM+=0.04618 4
188OS G 162.2 A ?
188OS G 987.43 6 6.3 6 M1(+E2) 0.7 LE 0.0105 11 C
188OS2 G %IG=0.92 10
188OSS G KC=0.0088 10$LC=0.00136 13$MC=0.00031 3
188OSS G NC=7.6E-5 7$OC=1.31E-5 13$PC=9.8E-7 11
188OS cG M,MR$|a(K)exp=0.0103 {I25}, |a(L)exp=0.0022 {I10}
188OS G 1142.54 10 2.5 5 (E2) 0.00382 C
188OS2 G %IG=0.37 8
188OSS G KC=0.00314 5$LC=0.000524 8$MC=0.0001209 17
188OSS G NC=2.94E-5 5$OC=4.99E-6 7$PC=3.36E-7 5$IPC=9.43E-7 14
188OS cG M,MR$|a(K)exp|?0.0046
188OS G 1465.24 15 9.2 9 M1+E2 0.9 +16-8 0.0035 9 C
188OS2 G %IG=1.35 15
188OSS G KC=0.00289 73$LC=0.00044 11$MC=0.000101 24
188OSS G NC=2.5E-5 6$OC=4.3E-6 11$PC=3.19E-7 86$IPC=7.1E-5 12
188OS cG M,MR$|a(K)exp=0.0029 {I7}. Other: 1465|g(|q): A{-2}=0.2 {I4} (1985Ed02)
188OS G 1619.1 7 1.6 3 [E2] 0.00209
188OS2 G %IG=0.23 5
188OSS G KC=0.001647 23$LC=0.000255 4$MC=5.82E-5 9
188OSS G NC=1.418E-5 20$OC=2.43E-6 4$PC=1.753E-7 25$IPC=0.0001089 16
188OS cG E$Not observed in {+188}Ir |e decay (41.5 h)
188OS L 1685.28 5 (3+)
188OS E 0.05 LT 10.5 GT 0.05 LT 1U?
188OSS E CK=0.7844 4$CL=0.1629 3$CM+=0.05274 12
188OS G 719.58 15 0.15 5 D
188OS2 G %IG=0.022 8
188OS G 895.33 8 0.95 10 DC
188OS2 G %IG=0.139 17
188OS G 1052.11 20 0.23 7
188OS2 G %IG=0.034 11
188OS G 1530.06 15 1.55 19 DC
188OS2 G %IG=0.23 3
188OS L 1704.3 5 0+
188OS L 1729.50 5 2+
188OS cL J$3 is not allowed by |g(|q) data of 1992Ka49
188OS E 4.8 4 7.85 4 4.8 4
188OSS E CK=0.8060 2$CL=0.1473 2$CM+=0.04669 5
188OS G 271.8 5 0.18 3 [M1+E2] 0.339 D
188OS2 G %IG=0.026 5
188OSS G KC=0.281 4$LC=0.0450 7$MC=0.01030 15
188OSS G NC=0.00252 4$OC=0.000435 6$PC=3.25E-5 5
188OS G 424.71 15 0.23 4 M1+E2 1.2 LE 0.082 20
188OS2 G %IG=0.034 7
188OSS G KC=0.067 18$LC=0.0116 19$MC=0.0027 4
188OSS G NC=0.00065 10$OC=0.000111 19$PC=7.6E-6 21
188OS cG M$|a(K)exp=0.08 {I3}
188OS G 763.90 14 0.21 5 [E2] 0.00864 D
188OS2 G %IG=0.031 8
188OSS G KC=0.00690 10$LC=0.001338 19$MC=0.000314 5
188OSS G NC=7.62E-5 11$OC=1.269E-5 18$PC=7.41E-7 11
188OS G 939.57 6 4.5 4 M1(+E2) 0.8 LE 0.0117 15 C
188OS2 G %IG=0.66 7
188OSS G KC=0.0097 13$LC=0.00152 18$MC=0.00035 4
188OSS G NC=8.5E-5 10$OC=1.46E-5 17$PC=1.09E-6 15
188OS cG M$|a(K)exp=0.0102 {I25}, |a(L)exp=0.0024 {I8}
188OS G 1096.3 3 9.9 8 M1(+E2) 0.7 LE 0.0081 8 C
188OS2 G %IG=1.45 14
188OSS G KC=0.0068 7$LC=0.00105 10$MC=0.000239 22
188OSS G NC=5.8E-5 6$OC=1.01E-5 10$PC=7.6E-7 8
188OS cG M$|a(K)exp=0.0078 {I20}, |a(L)exp=0.0012 {I4}.
188OS2cG 1097|g(|q): A{-2}=-0.25 {I15} (1985Ed02)
188OS G 1251.64 20 0.18 6 [E2] 0.00322 D
188OS2 G %IG=0.026 9
188OSS G KC=0.00265 4$LC=0.000432 6$MC=9.92E-5 14
188OSS G NC=2.41E-5 4$OC=4.11E-6 6$PC=2.83E-7 4$IPC=1.010E-5 15
188OS G 1574.52 12 17.9 14M1+E2 +0.65 8 0.0033010 C
188OS2 G %IG=2.62 25
188OSS G KC=0.00265 8$LC=0.000404 12$MC=9.2E-5 3
188OSS G NC=2.25E-5 7$OC=3.89E-6 12$PC=2.94E-7 9$IPC=0.000122 3
188OS cG M$|a(K)exp=0.0023 {I6}, |a(L)exp=0.00043 {I22}.
188OS2cG 1574|g(|q): A{-2}=0.75 {I15} (1985Ed02)
188OS cG MR$from |g(|q): A{-2}U{-2}=-0.58 {I3} (1992Ka49,1992Ka48).
188OS L 1765.6 50+
188OS L 1807.59 4 2+
188OS E 3.2 3 7.95 5 3.2 3
188OSS E CK=0.8044 2$CL=0.1484 2$CM+=0.04713 6
188OS G 350.0 1.6 3 E2 0.0584 B
188OS2 G %IG=0.23 5
188OSS G KC=0.0400 6$LC=0.01401 20$MC=0.00343 5
188OSS G NC=0.000829 12$OC=0.0001303 19$PC=4.11E-6 6
188OS cG M$|a(K)exp=0.035 {I9}.
188OS G 1017.68 5 7.43 11M1(+E2) 0.6 LE 0.0100 8 C
188OS2 G %IG=1.09 6
188OSS G KC=0.0083 7$LC=0.00129 10$MC=0.000294 22
188OSS G NC=7.2E-5 6$OC=1.24E-5 10$PC=9.3E-7 8
188OS cG RI$ 7.2 {I6} (1975Th06)
188OS cG M,MR$|a(K)exp=0.0087 {I20}, |a(L)exp=0.0016 {I4}
188OS G 1174.57 3 9.0 9 M1(+E2) 0.8 LE 0.0068 8 @C
188OS2 G %IG=1.32 15
188OSS G KC=0.0056 7$LC=0.00087 10$MC=0.000198 21
188OSS G NC=4.8E-5 5$OC=8.4E-6 9$PC=6.3E-7 8$IPC=3.40E-6 24
188OS cG RI$ From 1975Th06
188OS cG M,MR$|a(K)exp=0.0063 {I16}, |a(L)exp=0.0011 {I4}
188OS G 1329.1 1.5 5 B
188OS2 G %IG=0.22 8
188OS G 1652.42 8 1.54 4 M1(+E2) 0.9 LE 0.0031 4 C
188OS2 G %IG=0.226 14
188OSS G KC=0.0025 3$LC=0.00037 4$MC=8.5E-5 9
188OSS G NC=2.07E-5 21$OC=3.6E-6 4$PC=2.7E-7 3$IPC=0.000164 13
188OS cG RI$ 2.12 {I17} (1975Th06)
188OS cG M$|a(K)exp=0.0031 {I8}
188OS G 1807.36 12 0.43218[E2] 0.00180 D
188OS2 G %IG=0.063 5
188OSS G KC=0.001348 19$LC=0.000205 3$MC=4.68E-5 7
188OSS G NC=1.139E-5 16$OC=1.96E-6 3$PC=1.433E-7 20$IPC=0.000186 3
188OS cG RI$ 0.79 {I15} (1975Th06)
188OS L 1842.85 4 (2)+
188OS E 8.2 8 7.51 5 8.2 8
188OSS E CK=0.8036 3$CL=0.14903 16$CM+=0.04735 6
188OS G 222.3 A ?
188OS G 385.46 5 1.60 15M1+E2 1.2 +7-5 0.080 23 C
188OS2 G %IG=0.23 3
188OSS G KC=0.063 21$LC=0.0130 20$MC=0.0031 4
188OSS G NC=0.00075 10$OC=0.000124 20$PC=7.1E-6 25
188OS cG M,MR$|a(K)exp=0.088 {I20}, L1/M=2.8 {I6}, |a(L1)exp=0.0175,
188OS2cG |a(M)exp=0.0063
188OS G 538.06 8 1.32 15[M1] 0.0548 DC
188OS2 G %IG=0.193 25
188OSS G KC=0.0455 7$LC=0.00714 10$MC=0.001633 23
188OSS G NC=0.000399 6$OC=6.90E-5 10$PC=5.19E-6 8
188OS G 1209.80 3 47 4 M1(+E2) 0.7 LE 0.0064 6 C
188OS2 G %IG=6.9 7
188OSS G KC=0.0053 5$LC=0.00082 8$MC=0.000187 16
188OSS G NC=4.6E-5 4$OC=7.9E-6 7$PC=6.0E-7 6$IPC=7.5E-6 5
188OS cG M,MR$|a(K)exp=0.0057 {I14}, |a(L)exp=0.00097 {I25}.
188OS2cG (1210|g)(633|g)(|q): A{-2}=-0.22 {I2}, A{-4}=0.05 {I2} (1969Ya02),
188OS3cG 1210|g(|q): A{-2}=-0.06 {I2} (1985Ed02)
188OS G 1688.04 15 5.0 4 M1+E2 1.1 9 0.0025567 &C
188OS2 G %IG=0.73 7
188OSS G KC=0.00200 53$LC=3.04E-4 79$MC=6.9E-5 18
188OSS G NC=1.69E-5 44$OC=2.92E-6 77$PC=2.19E-7 64$IPC=0.00016 3
188OS cG M,MR$|a(K)exp=0.0020 {I5}.
188OS2cG 1688|g(|q): A{-2}=0.15 {I25} (1985Ed02)
188OS G 1843.0 4 1.08 19 D
188OS2 G %IG=0.16 3
188OS L 1957.34 11 (1+,2+)
188OS E 1.37 12 8.17 4 1.37 12
188OSS E CK=0.8004 3$CL=0.15136 22$CM+=0.04823 8
188OS G 652.58 15 0.14 5
188OS2 G %IG=0.021 8
188OS G 1802.18 20 6.6 5 C
188OS2 G %IG=0.97 9
188OS cG M$|a(K)exp<0.00057 gives (E1), in conflict with (E2)
188OS2cG from |a(pair) in {+188}Re |b{+-}. |a(K)(E2)=0.0014.
188OS3cG 1802|g(|q): A{-2}=0.3 {I2} (1985Ed02)
188OS G 1957.29 25 2.65 3 D
188OS2 G %IG=0.388 21
188OS cG RI$ 2.9 {I3} (1975Th06)
188OS L 1965.00 7 (2)+
188OS E 0.71 7 8.44 5 0.71 7
188OSS E CK=0.8002 3$CL=0.15154 22$CM+=0.04830 9
188OS G 279.6 A ?
188OS G 999.38 15 0.48 8 [E2] 0.00497 D
188OS2 G %IG=0.070 13
188OSS G KC=0.00406 6$LC=0.000705 10$MC=0.0001634 23
188OSS G NC=3.97E-5 6$OC=6.71E-6 10$PC=4.35E-7 6
188OS G 1174.59 10 @C ?
188OS G 1331.94 7 3.19 25M1(+E2) 1.4 LE 0.0047 9 C
188OS2 G %IG=0.47 5
188OSS G KC=0.0039 8$LC=0.00059 11$MC=0.000135 25
188OSS G NC=3.3E-5 6$OC=5.7E-6 11$PC=4.3E-7 9$IPC=3.0E-5 4
188OS cG M,MR$|a(K)exp=0.0042 {I10}
188OS G 1487.01 25 0.51 7 [E2] 0.00238 DC
188OS2 G %IG=0.075 11
188OSS G KC=0.00192 3$LC=0.000302 5$MC=6.92E-5 10
188OSS G NC=1.684E-5 24$OC=2.88E-6 4$PC=2.05E-7 3$IPC=6.33E-5 9
188OS G 1809.85 26 0.77 20M1+E2+E0 0.00285 C
188OS2 G %IG=0.11 3
188OSS G KC=0.00216 3$LC=0.000327 5$MC=7.43E-5 11
188OSS G NC=1.81E-5 3$OC=3.15E-6 5$PC=2.41E-7 4$IPC=0.000269 4
188OS cG RI$2.33 {I21} (1975Th06). I(E0)=0.020 {I5} (deduced from Ice data)
188OS cG M$|a(K)exp=0.0101 {I25}. 1810|g(|q): A{-2}=0.05 {I20} (1985Ed02)
188OS cG CC$0.013 3 from |a(K)exp and K/T=0.78
188OS L 2068.55 8 (2)+
188OS E 1.61 16 7.96 5 1.61 16
188OSS E CK=0.7962 4$CL=0.1544 3$CM+=0.04939 12
188OS G 448.10 8 0.51 10E2 0.0300
188OS2 G %IG=0.075 16
188OSS G KC=0.0220 3$LC=0.00609 9$MC=0.001472 21
188OSS G NC=0.000356 5$OC=5.71E-5 8$PC=2.32E-6 4
188OS cG M$|a(K)exp=0.019 {I6}
188OS G 1435.42 15 10.1 8 M1+E2 1.2 +49-7 0.0034 9 C
188OS2 G %IG=1.48 14
188OSS G KC=0.0028 7$LC=0.00043 10$MC=9.8E-5 23
188OSS G NC=2.4E-5 6$OC=4.1E-6 10$PC=3.04E-7 82$IPC=5.7E-5 9
188OS cG M,MR$|a(K)exp=0.0028 {I7}
188OS G 2068.9 5 0.39 6 [E2] 1.56E-3 D
188OS2 G %IG=0.057 10
188OSS G KC=0.001055 15$LC=0.0001581 23$MC=3.59E-5 5
188OSS G NC=8.75E-6 13$OC=1.509E-6 22$PC=1.120E-7 16$IPC=0.000304 5
188OS L 2085.41 9 (1,2)+
188OS E 1.47 13 7.98 4 1.47 13
188OSS E CK=0.7954 5$CL=0.1550 3$CM+=0.04960 12
188OS G 1295.44 10 0.91 9 (M1,E2) 0.00592 C
188OS2 G %IG=0.133 15
188OSS G KC=0.00492 7$LC=0.000751 11$MC=0.0001710 24
188OSS G NC=4.17E-5 6$OC=7.24E-6 11$PC=5.52E-7 8$IPC=2.40E-5 4
188OS cG M$|a(K)exp|?0.0073
188OS G 1452.28 15 7.2 6 M1(+E2) 0.9 LE 0.0041 5 C
188OS2 G %IG=1.05 11
188OSS G KC=0.0033 4$LC=0.00051 6$MC=0.000116 13
188OSS G NC=2.8E-5 3$OC=4.9E-6 6$PC=3.7E-7 5$IPC=7.2E-5 6
188OS cG M,MR$|a(K)exp=0.0039 {I9}. 1452|g(|q): A{-2}=-0.15 {I15} (1985Ed02)
188OS G 1930.65 25 1.95 18[M1] 0.00255 C
188OS2 G %IG=0.29 3
188OSS G KC=0.00185 3$LC=0.000278 4$MC=6.33E-5 9
188OSS G NC=1.546E-5 22$OC=2.68E-6 4$PC=2.06E-7 3$IPC=0.000344 5
188OS L 2098.98 5 (1)+
188OS E 9.2 9 7.16 5 9.2 9
188OSS E CK=0.7948 5$CL=0.1554 4$CM+=0.04978 13
188OS G 413.73 8 0.24 4 D
188OS2 G %IG=0.035 7
188OS G 641.59 5 2.6 3 M1(+E2) 0.8 LE 0.030 5 C
188OS2 G %IG=0.38 5
188OSS G KC=0.025 4$LC=0.0040 5$MC=0.00093 11
188OSS G NC=0.00023 3$OC=3.9E-5 5$PC=2.8E-6 5
188OS cG M,MR$|a(K)exp=0.029 {I7}
188OS G 794.17 15 0.25 5 [M1+E2] 0.0201 D
188OS2 G %IG=0.037 8
188OSS G KC=0.01676 24$LC=0.00260 4$MC=0.000593 9
188OSS G NC=0.0001447 21$OC=2.51E-5 4$PC=1.90E-6 3
188OS G 1012.54 8 0.82 12(M1) 0.01090
188OS2 G %IG=0.120 19
188OSS G KC=0.00909 13$LC=0.001397 20$MC=0.000319 5
188OSS G NC=7.78E-5 11$OC=1.347E-5 19$PC=1.024E-6 15
188OS cG M$|a(K)exp|?0.0139.
188OS G 1307.9 5 5.2 LT ?
188OS2 G %IG=0.4 4
188OS cG E$Not observed in {+188}Ir |e decay
188OS G 1944.08 20 26.7 19(E2) 1.66E-3 C
188OS2 G %IG=3.9 4
188OSS G KC=0.001181 17$LC=0.0001782 25$MC=4.05E-5 6
188OSS G NC=9.88E-6 14$OC=1.701E-6 24$PC=1.254E-7 18$IPC=0.000247 4
188OS cG M$|a(K)exp=0.00092 {I25}, |a(L)exp=0.00014 {I7}. Mult=E1 not
188OS2cG completely excluded. 1944|g(|q): A{-2}=-0.11 {I7} (1985Ed02)
188OS G 2099.1 4 32 4
188OS2 G %IG=4.7 6
188OS L 2166.02 10(2)+
188OS E 0.93 9 8.06 5 0.93 9
188OSS E CK=0.7911 6$CL=0.1581 4$CM+=0.05079 16
188OS G 703.38 18 0.17 6 [E1] 0.00380 D
188OS2 G %IG=0.025 9
188OSS G KC=0.00319 5$LC=0.000470 7$MC=0.0001066 15
188OSS G NC=2.59E-5 4$OC=4.43E-6 7$PC=3.17E-7 5
188OS G 1688.04 15 2.27 17 C
188OS2 G %IG=0.33 3
188OS cG RI$5.0 {I4} in 1975Th06 (unresolved doublet)
188OS G 2011.39 25 4.2 4 (E2) 1.60E-3 C
188OS2 G %IG=0.62 7
188OSS G KC=0.001110 16$LC=0.0001669 24$MC=3.80E-5 6
188OSS G NC=9.24E-6 13$OC=1.593E-6 23$PC=1.179E-7 17$IPC=0.000278 4
188OS cG M$|a(K)exp=0.0011 {I3}
188OS L 2204.72 8 2+
188OS E 5.4 5 7.24 5 5.4 5
188OSS E CK=0.7885 7$CL=0.1600 5$CM+=0.05150 18
188OS G 399.0 A ?
188OSF G FL=1807.59
188OS G 747.31 15 0.33 6 M1(+E2) 0.7 LE 0.0211 24
188OS2 G %IG=0.048 10
188OSS G KC=0.0175 21$LC=0.0028 3$MC=0.00063 6
188OSS G NC=0.000155 15$OC=2.7E-5 3$PC=1.98E-6 24
188OS cG M,MR$|a(K)exp=0.029 {I9}
188OS G 899.90 10 0.74 8 [M1] 0.01466 DC
188OS2 G %IG=0.108 13
188OSS G KC=0.01222 18$LC=0.00189 3$MC=0.000430 6
188OSS G NC=0.0001050 15$OC=1.82E-5 3$PC=1.380E-6 20
188OS G 1414.57 20 0.52 5 [M1] 0.00480 D
188OS2 G %IG=0.076 9
188OSS G KC=0.00396 6$LC=0.000602 9$MC=0.0001372 20
188OSS G NC=3.35E-5 5$OC=5.81E-6 9$PC=4.43E-7 7$IPC=6.19E-5 9
188OS G 1571.6 4 0.78 11[M1] 0.00379 D
188OS2 G %IG=0.114 18
188OSS G KC=0.00306 5$LC=0.000464 7$MC=0.0001055 15
188OSS G NC=2.58E-5 4$OC=4.47E-6 7$PC=3.42E-7 5$IPC=0.0001332 19
188OS G 1726.9 5 0.80 8 [E2] 0.00191 C
188OS2 G %IG=0.117 14
188OSS G KC=0.001464 21$LC=0.000224 4$MC=5.12E-5 8
188OSS G NC=1.247E-5 18$OC=2.14E-6 3$PC=1.557E-7 22$IPC=0.0001517 22
188OS G 2049.78 20 33.9 24M1+E2 +0.117 +26-220.00232 C
188OS2 G %IG=5.0 5
188OSS G KC=0.001589 23$LC=0.000239 4$MC=5.44E-5 8
188OSS G NC=1.327E-5 19$OC=2.30E-6 4$PC=1.77E-7 3$IPC=0.000419 6
188OS cG M$|a(K)exp=0.0012 {I3}, |a(L)exp=0.00018 {I4}.
188OS2cG |g(|q): A{-2}U{-2}=-0.327 {I15} (1992Ka49,1992Ka48).
188OS3cG 2050|g(|q): A{-2}=-0.26 {I4} (1985Ed02)
188OS cG MR$from |g(|q): A{-2}U{-2}=-0.327 {I15} (1992Ka49,1992Ka48).
188OS L 2214.60 5 (1)+
188OS E 26.6 22 6.53 4 26.6 22
188OSS E CK=0.7878 7$CL=0.1605 5$CM+=0.05170 19
188OS G 115.7 A ?
188OS G 371.4 A ?
188OS G 594.06 8 0.65 8 M1(+E2) 1 LE 0.036 7 C
188OS2 G %IG=0.095 13
188OSS G KC=0.029 6$LC=0.0048 8$MC=0.00110 16
188OSS G NC=0.00027 4$OC=4.6E-5 8$PC=3.3E-6 7
188OS cG M,MR$|a(K)exp=0.032 {I8}
188OS G 736.56 8 1.95 20(M1) 0.0244 C
188OS2 G %IG=0.29 4
188OSS G KC=0.0203 3$LC=0.00315 5$MC=0.000720 10
188OSS G NC=0.0001757 25$OC=3.04E-5 5$PC=2.30E-6 4
188OS cG M,MR$|a(K)exp=0.022 {I5}
188OS G 752.09 10 0.51 8 [E1] 0.00333 D
188OS2 G %IG=0.075 13
188OSS G KC=0.00280 4$LC=0.000411 6$MC=9.31E-5 13
188OSS G NC=2.26E-5 4$OC=3.88E-6 6$PC=2.79E-7 4
188OS G 757.21 8 2.64 25M1(+E2) 0.8 LT 0.020 3 C
188OS2 G %IG=0.39 5
188OSS G KC=0.0166 24$LC=0.0026 3$MC=0.00060 7
188OSS G NC=0.000147 17$OC=2.5E-5 3$PC=1.9E-6 3
188OS cG M,MR$|a(K)exp=0.020 {I5}. 757|g(|q): A{-2}=0.15 {I15} (1985Ed02),
188OS2cG deduced |d(E2/M1)=-0.2 to +0.4 or <-1.5
188OS G 909.68 15 0.23 6 [M1] 0.01427 DC
188OS2 G %IG=0.034 9
188OSS G KC=0.01189 17$LC=0.00183 3$MC=0.000419 6
188OSS G NC=0.0001022 15$OC=1.770E-5 25$PC=1.342E-6 19
188OS G 1128.33 15 0.43 5 [M1] 0.00831 D
188OS2 G %IG=0.063 8
188OSS G KC=0.00694 10$LC=0.001062 15$MC=0.000242 4
188OSS G NC=5.91E-5 9$OC=1.024E-5 15$PC=7.80E-7 11$IPC=8.69E-7 13
188OS G 2059.65 20 48 3 M1+E2 -0.20 7 0.00228 C
188OS2 G %IG=7.0 6
188OSS G KC=0.00156 3$LC=0.000234 4$MC=5.33E-5 10
188OSS G NC=1.301E-5 23$OC=2.26E-6 4$PC=1.73E-7 3$IPC=0.000422 7
188OS cG MR$from |g(|q,H,T) measurement (1980Be27), but J|p({+188}Ir g.s.)=2-
188OS2cG was assumed, instead of 1-.
188OS cG M$|a(K)exp=0.0011 {I2}, |a(L)exp=0.00011 {I5}. Deduced
188OS2cG mult=E2, in conflict with that from |g(|q,H,T) data.
188OS3cG 2060|g(|q): A{-2}=0.01 {I5} (1985Ed02), deduced
188OS2cG |d(E2/M1)=-0.2 to +0.1 or -5 to -2
188OS G 2214.59 20 127 9 (M1) 0.00211
188OS2 G %IG=18.6 15
188OSS G KC=0.001322 19$LC=0.000199 3$MC=4.52E-5 7
188OSS G NC=1.102E-5 16$OC=1.91E-6 3$PC=1.471E-7 21$IPC=0.000527 8
188OS cG M$|a(K)exp=0.00091 {I25}, |a(L)exp=0.00011 {I5}, consistent with E2
188OS2cG |g(|q,H,T) measurement (1980Be27), but the analysis
188OS3cG assumed J|p({+188}Ir g.s.)=2-, instead of 1-.
188OS4cG 2215|g(|q): A{-2}=0.67 {I2} (1985Ed02). This transition was
188OS5cG used in NMR studies on oriented {+188}Ir nuclei to obtain J|p({+188}Ir
188OS6cG g.s.)=1
188OS L 2251.94 6 2+
188OS E 7.0 9 7.04 6 7.0 9
188OSS E CK=0.7848 8$CL=0.1627 6$CM+=0.05252 22
188OS G 522.68 10 0.14 4 [M1] 0.0591 C
188OS2 G %IG=0.021 6
188OSS G KC=0.0491 7$LC=0.00771 11$MC=0.001763 25
188OSS G NC=0.000430 6$OC=7.45E-5 11$PC=5.60E-6 8
188OS G 566.59 8 1.44 14M1(+E2) 0.5 5 0.042 10 C
188OS2 G %IG=0.211 24
188OSS G KC=0.034 8$LC=0.0056 10$MC=0.00128 22
188OSS G NC=0.00031 6$OC=5.4E-5 10$PC=3.9E-6 10
188OS cG M$|a(K)exp=0.034 {I8}
188OS G 946.98 8 0.88 9 (M1,E2) 0.01289 C
188OS2 G %IG=0.129 15
188OSS G KC=0.01075 15$LC=0.001656 24$MC=0.000378 6
188OSS G NC=9.22E-5 13$OC=1.597E-5 23$PC=1.212E-6 17
188OS cG M$|a(K)exp<0.015
188OS G 1286.35 20 0.22 8 [E2] 0.00306 DC
188OS2 G %IG=0.032 12
188OSS G KC=0.00251 4$LC=0.000407 6$MC=9.35E-5 14
188OSS G NC=2.28E-5 4$OC=3.88E-6 6$PC=2.69E-7 4$IPC=1.491E-5 21
188OS G 1462.7 2.8 3 [M1] 0.00444 B ?
188OS2 G %IG=0.41 5
188OSS G KC=0.00365 6$LC=0.000554 8$MC=0.0001262 18
188OSS G NC=3.08E-5 5$OC=5.34E-6 8$PC=4.08E-7 6$IPC=8.15E-5 12
188OS G 1618.8 4 3.3 3 M1(+E2) 0.5 5 0.0032 4 C
188OS2 G %IG=0.48 5
188OSS G KC=0.0025 3$LC=0.00039 5$MC=8.8E-5 10
188OSS G NC=2.15E-5 25$OC=3.7E-6 5$PC=2.8E-7 4$IPC=0.000146 13
188OS cG M$|a(K)exp=0.0031 {I8}
188OS G 1774.2 4 0.41 5 [E2] 0.00184 C
188OS2 G %IG=0.060 8
188OSS G KC=0.001394 20$LC=0.000213 3$MC=4.85E-5 7
188OSS G NC=1.182E-5 17$OC=2.03E-6 3$PC=1.482E-7 21$IPC=0.0001715 24
188OS cG M$|a(K)exp|?0.010 implies E0 in conflict with |DJ=2
188OS G 2096.9 4 39 5 [M1] 0.00225 C
188OS2 G %IG=5.7 8
188OSS G KC=0.001510 22$LC=0.000227 4$MC=5.16E-5 8
188OSS G NC=1.261E-5 18$OC=2.19E-6 3$PC=1.681E-7 24$IPC=0.000451 7
188OS cG M$(2097|g+2099|g)(|q): A{-2}=0.13 {I3} (1985Ed02)
188OS G 2252.09 25 2.35 21[E2] 1.47E-3
188OS2 G %IG=0.34 4
188OSS G KC=0.000906 13$LC=0.0001345 19$MC=3.05E-5 5
188OSS G NC=7.44E-6 11$OC=1.284E-6 18$PC=9.61E-8 14$IPC=0.000390 6
188OS L 2286.24 16 (1+,2+)
188OS E 0.38 5 8.24 6 0.38 5
188OSS E CK=0.7816 10$CL=0.1650 7$CM+=0.0534 3
188OS G 581.9 4 0.066 8
188OS2 G %IG=0.0097 13
188OS cG E$Not observed in {+188}Ir |e decay
188OS G 601.09 20 0.19 5
188OS2 G %IG=0.028 8
188OS G 828.6 A ?
188OS cG $829|g(|q): A{-2}=-0.14 {I7} (1985Ed02)
188OS G 1651.2 7 ?
188OS cG E$Not observed in {+188}Ir |e decay
188OS G 2130.9 3 1.83 22 C
188OS2 G %IG=0.27 4
188OS G 2286.2 4 0.52 7
188OS2 G %IG=0.076 11
188OS L 2299.86 23 1,2
188OS E 0.172 21 8.56 6 0.172 21
188OSS E CK=0.7802 10$CL=0.1660 8$CM+=0.0538 3
188OS G 821.2 A ?
188OS G 2144.85 25 1.09 11 C
188OS2 G %IG=0.160 19
188OS G 2299.7 5 0.09 4 D
188OS2 G %IG=0.013 6
188OS L 2326.07 13 1,2
188OS E 0.183 19 8.48 5 0.183 19
188OSS E CK=0.7772 12$CL=0.1682 9$CM+=0.0546 4
188OS G 596.41 15 0.18 4 D
188OS2 G %IG=0.026 6
188OS G 2171.4 3 0.49 6 DC
188OS2 G %IG=0.072 10
188OS G 2326.22 25 0.58 7
188OS2 G %IG=0.085 12
188OS L 2347.49 14 (1)+
188OS E 1.02 12 7.69 6 1.02 12
188OSS E CK=0.7744 13$CL=0.1702 10$CM+=0.0554 4
188OS G 581.9 4 0.185 21[M1] 0.0447
188OS2 G %IG=0.027 4
188OSS G KC=0.0371 6$LC=0.00582 9$MC=0.001329 19
188OSS G NC=0.000325 5$OC=5.61E-5 8$PC=4.23E-6 6
188OS cG E$Not observed in {+188}Ir |e decay
188OS G 2192.3 4 2.4 4 [M1] 0.00213
188OS2 G %IG=0.35 7
188OSS G KC=0.001355 19$LC=0.000204 3$MC=4.63E-5 7
188OSS G NC=1.130E-5 16$OC=1.96E-6 3$PC=1.508E-7 22$IPC=0.000513 8
188OS G 2347.50 15 4.4 5 (M1) 0.00198
188OS2 G %IG=0.64 8
188OSS G KC=0.001148 16$LC=0.0001721 24$MC=3.91E-5 6
188OSS G NC=9.55E-6 14$OC=1.658E-6 24$PC=1.276E-7 18$IPC=0.000613 9
188OS cG E$from 1980Be27. 1975Th06 give 2347.3 {I4}
188OS cG M$|a(K)exp=0.0007 {I3} gives mult=M1,E2.
188OS2cG A{-2}=+0.60 {I12} in |g(|q,H,T)
188OS3cG (1980Be27). The analysis assumed J|p=2- for {+188}Ir g.s.
188OS L 2348.69 6 (2)-
188OS E 9.3 8 6.72 5 9.3 8
188OSS E CK=0.7742 13$CL=0.1703 10$CM+=0.0555 4
188OS G 663.40 10 0.43 7 D
188OS2 G %IG=0.063 11
188OS G 886.20 8 1.72 17[M1] 0.01524 C
188OS2 G %IG=0.25 3
188OSS G KC=0.01270 18$LC=0.00196 3$MC=0.000448 7
188OSS G NC=0.0001092 16$OC=1.89E-5 3$PC=1.434E-6 20
188OS cG M$|a(K)exp=0.022.
188OS G 1558.66 15 5.9 5 E1 1.12E-3 C
188OS2 G %IG=0.86 9
188OSS G KC=0.000756 11$LC=0.0001069 15$MC=2.41E-5 4
188OSS G NC=5.87E-6 9$OC=1.014E-6 15$PC=7.67E-8 11$IPC=0.000223 4
188OS cG M$|a(K)exp=0.0008 {I2}
188OS G 1715.67 10 42 3 E1(+M2) +0.071 +24-360.001133 C
188OS2 G %IG=6.2 6
188OSS G KC=0.000670 22$LC=9.5E-5 4$MC=2.14E-5 8
188OSS G NC=5.21E-6 20$OC=9.0E-7 4$PC=6.8E-8 3$IPC=0.000337 5
188OS cG E$from 1980Be27. 1975Th06 give 1715.75 {I15}
188OS cG M$|a(K)exp=0.0005 {I1}.
188OS cG MR$from |g(|q): A{-2}U{-2}=-0.297 {I19} (1992Ka49,1992Ka48).
188OS2cG Other: -0.06 {I7} from |g(|q,H,T) study (1980Be27).
188OS3cG (1716|g)(633|g)(|q): A{-2}=+0.20 {I2}, A{-4}=0.00 {I2} (from a graph
188OS4cG shown by 1969Ya02), deduced |d|?+0.07.
188OS5cG 1716|g(|q): A{-2}=-0.26 {I8} (1985Ed02), deduced |d(M2/E1)=
188OS6cG -0.2 to +0.4 or +1 to +5
188OS G 2193.7 4 13.7 24E1 1.19E-3 C
188OS2 G %IG=2.0 4
188OSS G KC=0.000432 6$LC=6.04E-5 9$MC=1.359E-5 19
188OSS G NC=3.31E-6 5$OC=5.73E-7 8$PC=4.40E-8 7$IPC=0.000679 10
188OS cG M$|a(K)exp(2193.67|g+2192.3|g)=0.00071 {I18} consistent with
188OS2cG E1 for 2193.7|g and M1,E2 for 2192.3|g.
188OS3cG 2194|g(|q): A{-2}=-0.4 {I2} (1985Ed02)
188OS L 2374.2 4 1,2
188OS E 0.220 25 8.29 6 0.220 25
188OSS E CK=0.7704 15$CL=0.1731 11$CM+=0.0565 5
188OS G 2219.1 5 1.30 13 C
188OS2 G %IG=0.190 22
188OS G 2374.2 4 0.21 5 D
188OS2 G %IG=0.031 8
188OS L 2376.92 14 (2-)
188OS E 0.25 3 8.23 6 0.25 3
188OSS E CK=0.7700 15$CL=0.1734 11$CM+=0.0566 5
188OS G 411.77 20 0.08 3 [E1] 0.01173 D
188OS2 G %IG=0.012 5
188OSS G KC=0.00979 14$LC=0.001502 21$MC=0.000342 5
188OSS G NC=8.29E-5 12$OC=1.404E-5 20$PC=9.45E-7 14
188OS G 534.21 20 0.09 4 [E1] 0.00666 D
188OS2 G %IG=0.013 6
188OSS G KC=0.00558 8$LC=0.000838 12$MC=0.000191 3
188OSS G NC=4.62E-5 7$OC=7.87E-6 11$PC=5.47E-7 8
188OS G 2222.0 5 1.55 15[E1] 1.20E-3 C
188OS2 G %IG=0.23 25
188OSS G KC=0.000423 6$LC=5.91E-5 9$MC=1.331E-5 19
188OSS G NC=3.24E-6 5$OC=5.61E-7 8$PC=4.31E-8 6$IPC=0.000698 10
188OS L 2415.90 10 (2+)
188OS E 0.235 23 8.15 5 0.235 23
188OSS E CK=0.7628 20$CL=0.1785 14$CM+=0.0586 6
188OS G 730.52 10 0.52 8 D
188OS2 G %IG=0.076 13
188OS G 1782.8 5 0.46 5
188OS2 G %IG=0.067 9
188OS cG M$|a(K)exp|?0.012 implies E0 component
188OS G 1939.0 5 0.073 9
188OS2 G %IG=0.0107 15
188OS cG E$Not observed in {+188}Ir |e decay
188OS G 2261.3 3 0.56 7 C
188OS2 G %IG=0.082 12
188OS L 2460.49 18 1,2
188OS E 0.36 4 7.83 6 0.36 4
188OSS E CK=0.752 3$CL=0.1864 20$CM+=0.0616 8
188OS G 1823.6 11
188OS cG E$Not observed in {+188}Ir |e decay
188OS G 2305.61 25 0.93 12 C
188OS2 G %IG=0.136 19
188OS G 2460.51 25 1.56 18
188OS2 G %IG=0.23 3
188OS L 2491.0 3 (2-)
188OS E 0.045 10 8.63 11 0.045 10
188OSS E CK=0.742 4$CL=0.1935 25$CM+=0.0644 10
188OS G 2336.0 3 0.31 6 DC
188OS2 G %IG=0.045 10
188OS L 2520.48 22 1,2
188OS E 0.165 22 7.96 7 0.165 22
188OSS E CK=0.730 5$CL=0.202 4$CM+=0.0679 13
188OS G 268.3 A ?
188OS G 1887.9 4 0.55 8 D
188OS2 G %IG=0.081 13
188OS G 2365.3 3 0.50 9 C
188OS2 G %IG=0.073 14
188OS G 2520.1 5 0.08 4
188OS2 G %IG=0.012 6
188OS cG M$1964Ha06 report a conversion line for E|g=2525.1. If same
188OS2cG as 2520|g, |a(K)exp=0.029 is too high to be an E2 or M1 transition. It
188OS3cG is possible that line reported by 1964Ha06 is from an impurity
188OS L 2549.48 12 (2-)
188OS E 0.20 3 7.74 8 0.20 3
188OSS E CK=0.713 7$CL=0.214 5$CM+=0.0725 18
188OS G 383.47 8 0.24 4 [E1] 0.01378 D
188OS2 G %IG=0.035 7
188OSS G KC=0.01149 16$LC=0.001773 25$MC=0.000404 6
188OSS G NC=9.79E-5 14$OC=1.655E-5 24$PC=1.103E-6 16
188OS G 1760.2 A ?
188OS G 2394.35 25 1.12 17[E1] 1.25E-3 C
188OS2 G %IG=0.16 3
188OSS G KC=0.000376 6$LC=5.24E-5 8$MC=1.180E-5 17
188OSS G NC=2.87E-6 4$OC=4.98E-7 7$PC=3.83E-8 6$IPC=0.000811 12
188OS L 2581.80 24 1,2
188OS E 0.061 13 8.09 11 0.061 13
188OSS E CK=0.687 10$CL=0.233 7$CM+=0.080 3
188OS G 2426.9 4 0.14 4 D
188OS2 G %IG=0.021 6
188OS G 2581.7 3 0.28 7 D
188OS2 G %IG=0.041 11
188OS L 2622.71 20 (2+)
188OS E 0.100 14 7.61 10 0.100 14
188OSS E CK=0.630 20$CL=0.274 14$CM+=0.096 6
188OS G 2145.8 5 0.088 13
188OS2 G %IG=0.0129 21
188OS cG E$Not observed in {+188}Ir |e decay
188OS G 2467.6 4 0.05 3 D
188OS2 G %IG=0.007 5
188OS G 2622.45 25 0.55 8
188OS2 G %IG=0.081 13
188OS cG M$|a(K)exp=0.0042 {I14}, too large for mult=D,E2. Marginally
188OS2cG agrees with M2