182IR 182PT EC DECAY (2.67 M) 2007HO20,1995SA42 15NDS 201512
182IR H TYP=FUL$AUT=BALRAJ SINGH$CIT=NDS 130, 21 (2015)$CUT=15-Jul-2015$
182IR c 2007Ho20: Measured E|g, I|g, ce, |g(ce) using a Si(Li) detector and an
182IR2c HPGe detector. The ce data were measured using a magnetic spectrometer
182IR3c and a Si(Li) detector. The source of {+182}Pt obtained from
182IR4c successive decay of mass-separated {+182}Hg isotope formed in
182IR5c Pb(p,X), 1 GeV protons, CERN-PS booster facility. 2000Ro41 from
182IR6c the same group report multipolarity assignments for 21 transitions
182IR7c from 17.8 to 123.4 keV, consistent with those in 2007Ho20
182IR c 1995Sa42: Measured E|g, I|g, |g|g, |g|g(t) using a planar HPGe,
182IR2c x-ray detector and two coaxial HPGe detectors
182IR c 1999Sa40: Conversion electron measurements for four transitions
182IR c 2007Ho20, 1995Sa42 and 1999Sa40 are from the same group.
182IR c Others:
182IR c 1975Ho03: measured |b strength function; population of levels
182IR2c indicated from 800 keV to |?3 MeV
182IR c 1970FiZZ: measured E|g, I|g for four |g rays at 136.0, 146.0,
182IR2c 186.0 and 210.0. All are reported by 1995Sa42, except that 210|g
182IR3c is very weak in 1995Sa42
182IR c All data are from 2007Ho20, unless indicated otherwise
182IR cE TI$ Deduced by the evaluators from I|g+ce intensity balance. The
182IR2cE 2007Ho20 list |e+|b{++} feedings and associated log| {Ift} values only
182IR3cE some of the levels. Comparison of the two sets shows small deviations,
182IR4cE but the agreement is within the quoted uncertainties
182IR cE TI(Y)$ Too high to be realistic for |DJ involved in |b decay
182IR cG $ All |g rays assigned in the level scheme were seen in |g|g coin
182IR2cG data of 1995Sa42.
182IR cG $ When |d is given as approximate, 50% arbitrary uncertainty in this
182IR2cG value is assumed by the evaluators in deducing total conversion
182IR3cG coefficient
182IR cG E$|D(E|g) assigned as 0.2 keV for I|g>5 and E|g>500; and 0.3 keV
182IR2cG or 1 keV for others, based on a general statement by 1995Sa42.
182IR3cG 1995Sa42 state that weak |g rays (I|g<0.5) that were observed
182IR4cG only in coin with Ir x rays were not listed in their paper, but
182IR5cG several weak (I|g<0.5) |g rays are given by 2007Ho20.
182IR cG RI,TI$ Intensities quoted by 2007Ho20 are divided by a factor of 10.
182IR cG M$From ce data. Unless otherwise noted, the K conversion coefficients
182IR2cG above 185 keV are from |g and Si(Li) ce singles spectra.
182IR3cG The conversion coefficients below 185 keV are from |g and singles ce
182IR4cG spectra with a spectrograph. The subshell ratios are from |g and
182IR5cG spectrograph ce singles spectra. The |g ray and ce intensities were
182IR6cG normalized to well-known stretched E2 transitions in {+182}Ir.
182IR cG M(a)$ Subshell ratios are from singles electron spectra.
182IR cG M(e)$ The conversion coefficients are based on (ce)|g and |g|g
182IR2cG coincidence spectra.
182IR cG E(X),RI(X)$386.5, 387 and 388.1 are unresolved, divided intensity given
182IR cG MR$ Deduced by the evaluators from ce data of 2007Ho20. For many
182IR2cG transitions 2007Ho20 give pure M1 multipolarity, the evaluators deduce
182IR3cG upper limits of mixing ratios in such cases.
182IR cG CC$Theoretical values from BrIcc v2.3b (16-Dec-2014) 2008Ki07,
182IR2cG "Frozen Orbitals" approximation. If no value of |d(E2/M1) given it was
182IR3cG as 1.00.
182IR cL E$ From least-squares fit to E|g data.
182IR cL J$ From Adopted Levels
182IR CL BAND(A)$ K|p=1+, |p1/2[541]+|n1/2[521].
182IR2cL Mainly K=1, but mixed with K=0 partner of p1/2[541]-|n1/2[521] and K=1
182IR3cL and K=2 members of configuration=|p3/2[532]~#|n1/2[521]
182IR CL BAND(B)$ K|p=0+, |p1/2[541]-|n1/2[521].
182IR2cL Mainly K=0, but mixed with K=1 partner of p1/2[541]-|n1/2[521] and K=1
182IR3cL and K=2 members of configuration=|p3/2[532]~#|n1/2[521]
182IR CL BAND(C)$ K|p=4+, |p1/2[541]+|n7/2[514].
182IR2cL Mainly K=4, but mixed with K=3 partner of p1/2[541]-|n7/2[514] and
182IR3cL weak admixture of configuration=|p3/2[532]~#|n7/2[514]
182IR CL BAND(D)$ K|p=3+, |p1/2[541]-|n7/2[514].
182IR2cL Mainly K=3, but mixed with K=3 partner of p1/2[541]-|n7/2[514] and
182IR3cL weak admixture of configuration=|p3/2[532]~#|n7/2[514]
182PT P 0 0+ 2.67 M 12 2883 25
182PT cP T$From {+182}Pt Adopted Levels
182PT cP QP$From 2012Wa38
182IR N 0.164 30 0.164 30 0.99962 2 1.0004
182IR cN NR,NT$From estimated total disintegration intensity of 611 {I110}
182IR2cN feeding the g.s. The normalization factor was 0.189 {I27} according to
182IR4cN data presented in 1995Sa42 from estimated total disintegration
182IR5cN intensity of 530 {I75} feeding the g.s., 8.1 and 25.7 levels.
182IR cN BR$%|a=0.038 {I2} (from {+182}Pt Adopted Levels)
182IR PN 5
182IR G 57.7 3 1.5 2 E1 0.346 7 2.0 3
182IR2 G EL1C LE 0.57$ EL2C<0.22$ EL3C<0.16
182IRS G L/T=0.198 4$M/T=0.0461 10
182IRS G N/T=0.01103 23$O/T=0.00176 4$P/T=7.40E-5 15
182IRS G LC=0.267 6$MC=0.0621 13
182IRS G NC=0.0148 3$OC=0.00237 5$PC=9.96E-5 19
182IR cG $coin with 136|g
182IR G 96.9 3 0.32 15(M1) 6.70 12 2.6 18
182IR2 G EKC AP 5
182IRS G K/T=0.717 7$L/T=0.1181 25$M/T=0.0272 6
182IRS G N/T=0.00669 15$O/T=0.00118 3$P/T=8.92E-5 20
182IRS G KC=5.52 10$LC=0.910 16$MC=0.210 4
182IRS G NC=0.0516 9$OC=0.00913 16$PC=0.000687 12
182IR G 170.4 3 0.52 8 [D,E2] 0.7 6 0.9 3
182IR cG $coin with 473|g
182IR G 304.5 3 0.36 8 (M1+E2) 0.7 AP 0.211 AP 0.42 12
182IR2 G EKC AP 0.17
182IRS G K/T AP 0.1394$L/T AP 0.0267$M/T AP 0.00627
182IRS G N/T AP 0.001537$O/T AP 0.000265$P/T AP 1.682E-5
182IRS G KC AP 0.1688$LC AP 0.0324$MC AP 0.00760
182IRS G NC AP 0.00186$OC AP 0.000321$PC AP 2.04E-5
182IR G 348.5 3 0.47 11 [D,E2] 0.10 8 0.5 2
182IR cG $coin with 70|g
182IR G 386.5 3 0.3 1 M1+E2 1.3 +12-5 0.082 23 0.3 1 X
182IR2 G EKC=0.064 20
182IRS G K/T=0.059 18$L/T=0.0126 19$M/T=0.0030 4
182IRS G N/T=0.00073 10$O/T=0.000125 19$P/T=7.0E-6 24
182IRS G KC=0.064 21$LC=0.0137 20$MC=0.0032 5
182IRS G NC=0.00079 11$OC=0.000135 21$PC=7.6E-6 26
182IR G 391.3 3 0.67 10E1 0.01364 0.7 1
182IR2 G EKC LE 0.017
182IRS G K/T=0.01120 16$L/T=0.001743 25$M/T=0.000399 6
182IRS G N/T=9.73E-5 14$O/T=1.687E-5 24$P/T=1.136E-6 16
182IRS G KC=0.01135 16$LC=0.001767 25$MC=0.000404 6
182IRS G NC=9.86E-5 14$OC=1.710E-5 25$PC=1.151E-6 17
182IR cG $coin with 87|g
182IR G 413.2 3 0.58 11(M1(+E2)) 1 LT 0.099 21 0.62 14
182IR2 G EKC=0.085 20
182IRS G K/T=0.073 15$L/T=0.0127 17$M/T=0.0029 4
182IRS G N/T=0.00072 9$O/T=0.000127 18$P/T=8.9E-6 21
182IRS G KC=0.081 18$LC=0.0139 19$MC=0.0032 4
182IRS G NC=0.00079 10$OC=0.000139 19$PC=9.7E-6 23
182IR G 417.5 3 0.45 9 M1 0.1157 0.49 10e
182IR2 G EKC AP 0.13
182IRS G K/T=0.0859 12$L/T=0.01374 20$M/T=0.00316 5
182IRS G N/T=0.000776 11$O/T=0.0001376 20$P/T=1.044E-5 15
182IRS G KC=0.0958 14$LC=0.01533 22$MC=0.00352 5
182IRS G NC=0.000866 13$OC=0.0001535 22$PC=1.165E-5 17
182IR G 423.8 3 0.27 10M1 0.1112 0.30 11
182IR2 G EKC=0.17 8
182IRS G K/T=0.0829 11$L/T=0.01325 19$M/T=0.00304 5
182IRS G N/T=0.000748 11$O/T=0.0001327 19$P/T=1.007E-5 15
182IRS G KC=0.0921 13$LC=0.01472 21$MC=0.00338 5
182IRS G NC=0.000832 12$OC=0.0001474 21$PC=1.119E-5 16
182IR G 425.9 3 0.58 9 M1,E2 0.073 370.6 1
182IR2 G EKC=0.052 36
182IRS G K/T=0.054 29$L/T=0.0104 32$M/T=0.00243 69
182IRS G N/T=6.0E-4 18$O/T=1.03E-4 34$P/T=6.5E-6 39
182IRS G KC=0.058 33$LC=0.0111 35$MC=0.00261 74
182IRS G NC=6.4E-4 19$OC=1.10E-4 36$PC=7.0E-6 41
182IR cG M$2007Ho20 give M1+E2, evaluators' analysis gives M1,E2 with |d>0.2
182IR cG $coin with 77|g
182IR G 450.8 3 0.26 10
182IR G 452.2 3 0.44 9
182IR G 472.4 3 1.7 3 M1(+E2) 0.5 LT 0.078 6 1.8 3
182IR2 G EKC=0.077 20
182IRS G K/T=0.060 5$L/T=0.0097 6$M/T=0.00224 12
182IRS G N/T=0.00055 3$O/T=9.7E-5 6$P/T=7.2E-6 6
182IRS G KC=0.064 5$LC=0.0105 6$MC=0.00241 13
182IRS G NC=0.00059 3$OC=0.000105 6$PC=7.8E-6 7
182IR DG $ MR(E2/M1)<0.5
182IR cG $coin with 75|g, 77|g
182IR G 473.7 3 1.2 2 M1 0.0829 1.3 2
182IR2 G EKC=0.081 20
182IRS G K/T=0.0634 9$L/T=0.01011 15$M/T=0.00232 4
182IRS G N/T=0.000570 8$O/T=0.0001012 15$P/T=7.69E-6 11
182IRS G KC=0.0687 10$LC=0.01094 16$MC=0.00251 4
182IRS G NC=0.000618 9$OC=0.0001095 16$PC=8.33E-6 12
182IR cG $|d(E2/M1)<0.5
182IR cG $coin with 97|g
182IR G 520.2 3 0.85 13M1(+E2) 1 LT 0.054 11 0.9 2
182IR2 G EKC=0.053 19
182IRS G K/T=0.042 9$L/T=0.0070 11$M/T=0.00163 24
182IRS G N/T=0.00040 6$O/T=7.0E-5 11$P/T=5.1E-6 12
182IRS G KC=0.044 10$LC=0.0074 12$MC=0.00172 25
182IRS G NC=0.00042 6$OC=7.4E-5 12$PC=5.3E-6 12
182IR G 575.0 3 0.7 2
182IR cG $coin with 146|g, 171|g
182IR G 583.7 3 0.6 2 M1+E2 0.5 AP 0.0417 AP0.6 2
182IR2 G EKC AP 0.034
182IRS G K/T AP 0.0330$L/T AP 0.00541$M/T AP 0.001246
182IRS G N/T AP 0.000306$O/T AP 5.40E-5$P/T AP 3.97E-6
182IRS G KC AP 0.0344$LC AP 0.00563$MC AP 0.001298
182IRS G NC AP 0.000319$OC AP 5.62E-5$PC AP 4.13E-6
182IR G 684.2 3 0.7 LE 0.7 LE
182IR cG $ coin with Ir x rays
182IR cG RI$ quoted by 2007Ho20 as |<0.6 {I1}
182IR L 0.0 3+ A
182IR L 8.1 4 ?
182IR cL E$ordering of 8.1-374.1 cascade is not established
182IR G 8.1 0.70 20 S
182IR cG TI$from intensity balance at 8.1 level, assuming no |e+|b{++} feeding
182IR2cG to this level.
182IR L 25.85 17 (5)+ A
182IR cL $About 20% of the total disintegration intensity populates
182IR2cL this level.
182IR G 25.7 3 E2 2.83E3 18 112 18a
182IR cG TI$from intensity balance at 25.88 level
182IR2 G L1/L2 LE 0.054$ L3/L2=1.3 3$M3/M2=1.4 7
182IRS G L/T=0.76 4$M/T=0.192 15
182IRS G N/T=0.046 4$O/T=0.0070 6$P/T=5.9E-6 6
182IRS G LC=2.14E3 14$MC=5.4E2 4
182IRS G NC=130 8$OC=19.7 12$PC=0.0167 11
182IR L 71.06 16 (5)+ C
182IR G 45.3 2 7.4 11M1+E2 0.10 3 12.5 12 103 17 C
182IR2 G EL1C=7.0 20$ EL2C=1.3 4$ EM1C=1.6 4$ EM2C=0.3 1$ EM3C=0.15 8$
182IR2 G ENC=0.6 2
182IRS G L/T=0.71 5$M/T=0.166 19
182IRS G N/T=0.041 5$O/T=0.0071 9$P/T=0.00047 4
182IRS G LC=9.6 9$MC=2.24 22
182IRS G NC=0.55 6$OC=0.095 8$PC=0.00628 13
182IR G 71.1 3 0.3 AP[E2] 19.4 5 3.3 30 C
182IRS G L/T=0.716 13$M/T=0.184 6
182IRS G N/T=0.0444 15$O/T=0.00674 23$P/T=1.09E-5 4
182IRS G LC=14.6 4$MC=3.76 10
182IRS G NC=0.907 23$OC=0.138 4$PC=0.000223 5
182IR cG TI$0.3 to 6.2 (2007Ho20)
182IR L 74.80 13 (2)+ A
182IR G 74.8 2 93 23M1+E2 0.27 5 3.4 4 4.2E2 10 C
182IR2 G EL1C=1.4 2$EL2C=0.55 14$EL3C=0.38 8$EM1C=0.34 12$EM2C=0.13 7
182IR2 G EM3C=0.10 3
182IRS G L/T=0.59 4$M/T=0.141 16
182IRS G N/T=0.034 5$O/T=0.0058 7$P/T=0.000314 25
182IRS G LC=2.58 25$MC=0.61 7
182IRS G NC=0.150 16$OC=0.0254 23$PC=0.00137 4
182IR L 87.39 13 (1,2)+ A
182IR cL J$ (1)+ from band assignment
182IR G 12.6 [M1] 115.3 S
182IRS G LC=4.09 6$MC=86.0 12
182IRS G NC=21.1 3$OC=3.74 6$PC=0.281 4
182IR G 87.4 2 6.4 10E2 8.10 14 59 9 C
182IR2 G EKC=1.1 8$EL1C+EL2C=3.3 16$ EL3C=3.0 12$ EM1C LE 0.093
182IR2 G EM2C=1.0 5$ EM3C=0.8 4
182IRS G K/T=0.0914 18$L/T=0.601 8$M/T=0.155 4
182IRS G N/T=0.0374 9$O/T=0.00568 14$P/T=1.40E-5 3
182IRS G KC=0.832 12$LC=5.47 10$MC=1.407 25
182IRS G NC=0.340 6$OC=0.0517 10$PC=0.0001273 20
182IR L 88.8 3 (4)+ C
182IR G 17.8 3 M1 173 10 16 3 a
182IR cG TI$from intensity balance at 88.8 level deduced by the evaluators.
182IR2cG 2007Ho20 give 34 {I7} implying |e+|b{++} feeding which is not expected
182IR2 G L1/L2=15 12
182IRS G L/T=0.77 3$M/T=0.177 13
182IRS G N/T=0.044 4$O/T=0.0077 6$P/T=0.00058 5
182IRS G LC=133 7$MC=30.8 17
182IRS G NC=7.6 4$OC=1.34 8$PC=0.100 6
182IR cG MR$<0.07 from L1/L2
182IR L 95.07 16 (4)+ A
182IR G 69.3 3 1.6 3 M1+E2 0.2 AP 3.85 AP 8.0 16aC
182IR2 G L1/L2=4.1 36$ EL1C=2.1 9$ EL2C=0.5 3
182IRS G L/T AP 0.609$M/T AP 0.144
182IRS G N/T AP 0.0352$O/T AP 0.00602$P/T AP 0.000362
182IRS G LC AP 2.95$MC AP 0.698
182IRS G NC AP 0.171$OC AP 0.0292$PC AP 0.00176
182IR G 95.1 3 0.58 10M1(+E2) 1.1 LT 6.7 4 4.8 10 C
182IR2 G EKC=6 3$ EL1C=1.1 7
182IRS G K/T=0.58 16$L/T=0.221 76$M/T=0.055 25
182IRS G N/T=0.0133 62$O/T=0.00215 91$P/T=7.2E-5 23
182IRS G KC=4.4 14$LC=1.70 75$MC=0.42 20
182IRS G NC=0.102 48$OC=0.0165 69$PC=5.5E-4 17
182IR DG $ MR(E2/M1)<1.1
182IR L 152.23 17 (1,2)-
182IR cL $ Configuration=K|p=2-, |p3/2[402]~#|n1/2[521]
182IR G 64.9 3 0.7 AP[E1] 0.251 5 0.9 AP C
182IR2 G EL1C<3.1$ EL2C<1.0
182IRS G L/T=0.154 3$M/T=0.0359 7
182IRS G N/T=0.00860 17$O/T=0.00139 3$P/T=6.08E-5 11
182IRS G LC=0.193 4$MC=0.0449 9
182IRS G NC=0.01076 21$OC=0.00173 4$PC=7.61E-5 14
182IR G 77.4 2 17.0 26E1 0.748 30 5 C
182IR2 G EL1C AP 0.11$ EL2C AP 0.08$ EL3C AP 0.04
182IRS G K/T=0.339 4$L/T=0.0682 11$M/T=0.0158 3
182IRS G N/T=0.00380 7$O/T=0.000620 11$P/T=2.89E-5 5
182IRS G KC=0.593 9$LC=0.1193 19$MC=0.0277 5
182IRS G NC=0.00665 11$OC=0.001083 17$PC=5.06E-5 8
182IR L 152.46 15 (4)-
182IR cL $ Configuration=K|p=4-, |p1/2[541]~#|n9/2[624] + |p1/2[541]~#|n7/2[633]
182IR G 57.3 2 5.8 9 E1 0.353 6 7.9 12 C
182IR2 G EL1C=0.22 18$ EL3C=0.11 8$ EM2C<0.038$ EM3C LE 0.051
182IRS G L/T=0.201 3$M/T=0.0468 8
182IRS G N/T=0.01119 20$O/T=0.00179 4$P/T=7.48E-5 13
182IRS G LC=0.272 5$MC=0.0633 11
182IRS G NC=0.0151 3$OC=0.00242 4$PC=0.0001012 17
182IR G 81.5 2 37 6 E1 0.666 11 62 9 C
182IR2 G EKC=0.7 5$EL1C LE 0.074$EL2C LE 0.037$EM1C=0.013 9$ EM2C=0.011 7
182IR3 G EM3C=0.009 6
182IRS G K/T=0.319 4$L/T=0.0622 10$M/T=0.01440 24
182IRS G N/T=0.00346 6$O/T=0.000566 10$P/T=2.69E-5 5
182IRS G KC=0.532 8$LC=0.1036 16$MC=0.0240 4
182IRS G NC=0.00577 9$OC=0.000944 15$PC=4.48E-5 7
182IR G 152.5 3 3.8 6 [E1] 0.1357 21 4.3 6 C
182IR2 G EKC<0.56
182IRS G K/T=0.0978 14$L/T=0.01673 25$M/T=0.00385 6
182IRS G N/T=0.000934 14$O/T=0.0001574 24$P/T=8.90E-6 14
182IRS G KC=0.1111 17$LC=0.0190 3$MC=0.00438 7
182IRS G NC=0.001061 16$OC=0.000179 3$PC=1.011E-5 15
182IR L 174.49 18 (3)-
182IR cL $Configuration=K|p=3-, |p1/2[541]~#|n7/2[633] + |p3/2[532]~#|n9/2[624]
182IR E 0.5 3 6 4 5.6 3 7 4 Y ?
182IRS E EAV=767 11$CK=0.755 3$CL=0.1298 5$CM+=0.04101 17
182IR G 22.0 3 1.1 2 M1 92 4 107 18 C
182IR2 G EL1C=54 32$ EL3C<2.5$ EM1C=15 4$ EM2C=1.8 10$ EM3C<0.42
182IRF G FL=152.46
182IRS G L/T=0.762 23$M/T=0.176 10
182IRS G N/T=0.043 3$O/T=0.0077 5$P/T=0.00058 4
182IRS G LC=71 4$MC=16.4 8
182IRS G NC=4.03 18$OC=0.71 4$PC=0.0536 24
182IR L 190.39 19 (3)+ D
182IR G 101.6 3 2.2 3 M1(+E2) 0.5 LT 5.70 18 16 3 C
182IR2 G EKC=6.6 20$ EL1C=1.0 4$ EM1C=0.32 20
182IRS G K/T=0.66 3$L/T=0.147 25$M/T=0.035 8
182IRS G N/T=0.0085 19$O/T=0.0015 3$P/T=8.2E-5 8
182IRS G KC=4.4 5$LC=0.98 20$MC=0.23 6
182IRS G NC=0.057 13$OC=0.0097 18$PC=0.00055 6
182IR DG $ MR(E2/M1)<0.5
182IR L 194.38 19 (1,2)+
182IR E 0.21 6 2.7 7 6.0 1 2.9 8
182IRS E EAV=758 11$CK=0.757 3$CL=0.1302 5$CM+=0.04114 16
182IR G 106.9 3 2.5 4 M1(+E2) 0.5 LT 4.90 18 16 3 eC
182IR2 G EKC=5.0 15$ EKC=3.2 7$ EL1C=0.8 5$ ELC=0.77 20
182IRS G K/T=0.647 24$L/T=0.141 22$M/T=0.033 7
182IRS G N/T=0.0082 16$O/T=0.00139 23$P/T=8.0E-5 8
182IRS G KC=3.8 4$LC=0.83 15$MC=0.20 4
182IRS G NC=0.048 10$OC=0.0082 14$PC=0.00047 5
182IR DG $ MR(E2/M1)<0.5
182IR G 119.6 3 0.63 10M1,E2 3.0 7 3.0 9 C
182IR2 G EKC=3.9 33
182IRS G K/T=0.45 21$L/T=0.223 83$M/T=0.056 28
182IRS G N/T=0.0135 68$O/T=0.00215 98$P/T=5.5E-5 41
182IRS G KC=1.8 13$LC=0.88 39$MC=0.22 11
182IRS G NC=0.054 26$OC=0.0085 36$PC=2.2E-4 16
182IR cG M$2007Ho20 list M1, but their |a(K)exp value gives M1 or E2
182IR L 199.8 4 (0:3)-
182IR cL $ Configuration=K|p=1-, |p3/2[402]~#|n1/2[521], if J|p=3-
182IR E 0.13 4 1.7 6 6.2 2 1.8 6
182IRS E EAV=756 11$CK=0.758 3$CL=0.1303 5$CM+=0.04117 16
182IR G 47.6 3 1.0 2 M1 9.41 22 11 3 C
182IR2 G EL1C=7.0 36$ EL2C LE 1.7$ EL3C LE 0.38
182IRF G FL=152.23
182IRS G L/T=0.696 11$M/T=0.161 5
182IRS G N/T=0.0395 13$O/T=0.00698 22$P/T=0.000525 17
182IRS G LC=7.25 17$MC=1.67 4
182IRS G NC=0.411 10$OC=0.0727 17$PC=0.00547 13
182IR L 210.97 15 1+ B
182IR E 3.7 10 50 13 4.7 1 54 14
182IRS E EAV=751 11$CK=0.759 3$CL=0.1306 5$CM+=0.04124 16
182IR cE TI$deduced by the evaluators from intensity balance. 2007Ho20
182IR2cE give 54 {I22}
182IR G 58.7 2 15.7 22E1 0.330 6 21 3 C
182IR2 G EL1C=0.10 4$ EL2C=0.08 5$ EM1C=0.036 24
182IRF G FL=152.23
182IRS G L/T=0.191 3$M/T=0.0445 8
182IRS G N/T=0.01065 19$O/T=0.00170 3$P/T=7.20E-5 12
182IRS G LC=0.254 5$MC=0.0592 10
182IRS G NC=0.01416 24$OC=0.00227 4$PC=9.58E-5 16
182IR G 123.6 2 10.0 10M1(+E2) 0.3 LT 3.28 8 45 7 eC
182IR2 G EKC=3.1 5$ EKC=2.5 5$ELC=0.47 13$ EMC=0.21 6
182IRS G K/T=0.621 9$L/T=0.112 6$M/T=0.0260 18
182IRS G N/T=0.0064 5$O/T=0.00111 7$P/T=7.7E-5 4
182IRS G KC=2.66 10$LC=0.48 3$MC=0.111 8
182IRS G NC=0.0273 18$OC=0.0048 3$PC=0.000329 13
182IR DG $ MR(E2/M1)<0.3
182IR G 136.2 2 77 9 M1(+E2) 0.5 LT 2.42 13 281 56 C
182IR2 G EKC=2.1 3
182IRS G K/T=0.563 22$L/T=0.111 11$M/T=0.026 3
182IRS G N/T=0.0064 8$O/T=0.00110 11$P/T=6.9E-5 7
182IRS G KC=1.92 17$LC=0.38 4$MC=0.089 11
182IRS G NC=0.0218 25$OC=0.0038 4$PC=0.000237 22
182IR DG $ MR(E2/M1)<0.45
182IR L 255.1 4 0+,1+,2+
182IR E 0.11 4 1.7 6 6.2 2 1.8 6
182IRS E EAV=731 11$CK=0.7633 25$CL=0.1314 5$CM+=0.04151 16
182IR G 44.1 3 0.81 20M1 11.8 3 10.7 27 C
182IR2 G EL1C=10 4$ EL3C<0.50$ EM1C=2.1 10
182IRS G L/T=0.710 12$M/T=0.164 5
182IRS G N/T=0.0402 14$O/T=0.00712 24$P/T=0.000536 18
182IRS G LC=9.08 23$MC=2.09 6
182IRS G NC=0.514 13$OC=0.0911 23$PC=0.00685 17
182IR L 259.61 17 (2)+
182IR G 172.3 3 0.68 10[M1,E2] 0.94 371.2 5 C
182IRS G K/T=0.34 14$L/T=0.11 3$M/T=0.0268 77
182IRS G N/T=0.0065 19$O/T=0.0011 3$P/T=4.1E-5 29
182IRS G KC=0.66 42$LC=0.21 4$MC=0.052 12
182IRS G NC=0.013 3$OC=0.0021 4$PC=7.9E-5 54
182IR cG TI$0.7 to 1.6 (2007Ho20)
182IR G 184.9 3 4.9 7 M1(+E2) 1.5 LT 0.86 22 9.4 23eC
182IR2 G K/L=4.2 19$EKC=0.8 3$ELC=0.18 8
182IRS G K/T=0.35 9$L/T=0.085 12$M/T=0.020 4
182IRS G N/T=0.0050 9$O/T=0.00084 12$P/T=4.2E-5 18
182IRS G KC=0.65 24$LC=0.158 15$MC=0.038 5
182IRS G NC=0.0093 12$OC=0.00155 12$PC=7.8E-5 31
182IR L 283.81 18 (2)+ B
182IR E 0.031 13 0.49 20 6.7 2 0.52 21Y ?
182IRS E EAV=719 11$CK=0.7660 24$CL=0.1319 5$CM+=0.04169 15
182IR G 196.6 3 1.35 20[E2] 0.366 2.1 9 C
182IRS G K/T=0.1299 17$L/T=0.1041 15$M/T=0.0264 5
182IRS G N/T=0.00640 11$O/T=0.000999 16$P/T=1.309E-5 20
182IRS G KC=0.177 3$LC=0.1422 22$MC=0.0361 6
182IRS G NC=0.00875 14$OC=0.001364 21$PC=1.79E-5 3
182IR cG TI$1.2 to 3.0 (2007Ho20)
182IR G 283.9 3 1.8 3 M1(+E2) 0.7 LT 0.29 4 2.3 6 C
182IR2 G EKC=0.25 5
182IRS G K/T=0.184 21$L/T=0.0324 17$M/T=0.0075 4
182IRS G N/T=0.00185 9$O/T=0.000323 19$P/T=2.2E-5 4
182IRS G KC=0.24 4$LC=0.0418 20$MC=0.0097 4
182IRS G NC=0.00239 9$OC=0.000417 22$PC=2.9E-5 5
182IR L 320.94 17 (2)-
182IR cL $ Configuration=K|p=2-, |p5/2[402]~#|n1/2[521]
182IR G 110.1 3 0.81 12E1 0.312 1.1 2 eC
182IR2 G EKC<1$ ELC LE 0.18
182IRS G K/T=0.1929 25$L/T=0.0348 6$M/T=0.00804 13
182IRS G N/T=0.00194 4$O/T=0.000322 6$P/T=1.68E-5 3
182IRS G KC=0.253 4$LC=0.0456 8$MC=0.01054 17
182IRS G NC=0.00255 4$OC=0.000423 7$PC=2.20E-5 4
182IR G 146.4 2 15.4 23M1 2.06 48 7 C
182IR2 G EKC=2.0 3
182IRS G K/T=0.556 5$L/T=0.0909 15$M/T=0.0209 4
182IRS G N/T=0.00515 9$O/T=0.000911 16$P/T=6.87E-5 12
182IRS G KC=1.702 25$LC=0.278 4$MC=0.0641 10
182IRS G NC=0.01577 23$OC=0.00279 4$PC=0.000210 3
182IR G 168.8 3 0.65 10M1(+E2) 1.5 LT 1.1 3 1.6 4 eC
182IR2 G EKC=1.2 8$ EKC=1.0 5
182IRF G FL=152.23
182IRS G K/T=0.39 9$L/T=0.102 18$M/T=0.025 6
182IRS G N/T=0.0060 13$O/T=0.00100 18$P/T=4.8E-5 20
182IRS G KC=0.83 31$LC=0.22 3$MC=0.052 10
182IRS G NC=0.0127 22$OC=0.0021 3$PC=1.01E-4 40
182IR DG $ MR(E2/M1)<1.5
182IR L 341.67 21 (2,3,4)+ B
182IR cL J$ (3)+ favored from band assignment
182IR G 246.8 3 0.66 10 0.9 3 C
182IR G 266.7 3 0.8 1 M1,E2 0.26 13 1.0 2 C
182IR2 G EKC=0.2 1
182IRS G K/T=0.159 80$L/T=0.037 6$M/T=0.0088 11
182IRS G N/T=0.0022 3$O/T=0.00036 6$P/T=1.9E-5 13
182IRS G KC=0.20 12$LC=0.047 6$MC=0.0111 8
182IRS G NC=0.00272 22$OC=0.00046 6$PC=2.4E-5 16
182IR L 345.69 19 (2)-
182IR cL $Configuration=K|p=2-, |p3/2[532]~#|n7/2[633]
182IR E 0.21 7 3.8 12 5.8 2 4.0 13Y ?
182IRS E EAV=691 11$CK=0.7715 22$CL=0.1330 5$CM+=0.04205 15
182IR G 24.8 3 M1+E2 0.05 3 73 14 24 6 a
182IR2 G L1/L2=5.3 35
182IRS G L/T=0.76 10$M/T=0.18 5
182IRS G N/T=0.043 11$O/T=0.0075 19$P/T=0.00051 10
182IRS G LC=56 10$MC=13 3
182IRS G NC=3.2 6$OC=0.56 10$PC=0.0375 15
182IR G 171.2 2 7.1 11M1(+E2) 0.5 LT 1.25 8 16.8 25eC
182IR2 G EKC=1.4 7$ EKC=1.0 1$ ELC=0.18 4
182IRS G K/T=0.448 21$L/T=0.083 5$M/T=0.0193 13
182IRS G N/T=0.0047 3$O/T=0.00082 5$P/T=5.5E-5 6
182IRS G KC=1.01 9$LC=0.186 9$MC=0.044 3
182IRS G NC=0.0107 6$OC=0.00186 8$PC=0.000124 12
182IR DG $ MR(E2/M1)<0.5
182IR L 377.07 22 (2)+
182IR cL $ Configuration=K|p=2+, |p3/2[532]~#|n7/2[514]
182IR E 0.03 2 0.6 3 6.6 2 0.6 3 Y ?
182IRS E EAV=678 11$CK=0.7741 21$CL=0.1336 5$CM+=0.04222 14
182IR G 186.7 3 3.6 5 M1(+E2) 0.7 LT 0.94 10 7.5 15eC
182IR2 G K/L=6.2 21$ EKC=0.9 4$ ELC=0.14 7
182IRS G K/T=0.39 4$L/T=0.075 5$M/T=0.0177 15
182IRS G N/T=0.0043 4$O/T=0.00075 5$P/T=4.7E-5 8
182IRS G KC=0.75 11$LC=0.146 7$MC=0.0343 22
182IRS G NC=0.0084 5$OC=0.00145 6$PC=9.2E-5 15
182IR DG $ MR(E2/M1)<0.7
182IR L 382.17 15 (3)+
182IR cL $Configuration=K|p=3+, |p1/2[541]~#|n5/2[512]
182IR G 229.8 3 0.46 14E1 0.0483 0.5 2 eC
182IR2 G EKC AP 0.06
182IRF G FL=152.46
182IRS G K/T=0.0380 6$L/T=0.00620 9$M/T=0.001425 21
182IRS G N/T=0.000346 5$O/T=5.92E-5 9$P/T=3.65E-6 6
182IRS G KC=0.0398 6$LC=0.00650 10$MC=0.001493 22
182IRS G NC=0.000363 6$OC=6.21E-5 9$PC=3.83E-6 6
182IR G 287.2 3 1.6 2 M1(+E2) 0.6 LT 0.29 3 2.1 5 eC
182IR2 G EKC=0.26 5$ EKC=0.40 19
182IRS G K/T=0.183 17$L/T=0.0316 14$M/T=0.0073 3
182IRS G N/T=0.00180 7$O/T=0.000316 15$P/T=2.2E-5 3
182IRS G KC=0.24 3$LC=0.0408 16$MC=0.0095 3
182IRS G NC=0.00232 8$OC=0.000407 18$PC=2.9E-5 4
182IR DG $ MR(E2/M1)<0.6
182IR G 307.2 3 1.7 3 M1(+E2) 0.7 LT 0.23 3 2.2 5 eC
182IR2 G K/L=3.0 25$ EKC=0.23 6$ELC=0.07 6
182IRS G K/T=0.155 19$L/T=0.0270 16$M/T=0.0063 4
182IRS G N/T=0.00154 9$O/T=0.000269 18$P/T=1.9E-5 3
182IRS G KC=0.19 3$LC=0.0333 19$MC=0.0077 4
182IRS G NC=0.00190 10$OC=0.000333 21$PC=2.3E-5 4
182IR G 374.1 3 0.61 9 [D,E2] 0.09 7 0.7 2 C
182IR2 G EKC LE 0.14
182IR G 382.1 3 0.3 1 M1+E2 1.4 5 0.081 22 0.3 1 C
182IR2 G EKC=0.063 20
182IRS G K/T=0.058 17$L/T=0.0128 17$M/T=0.0031 4
182IRS G N/T=0.00075 9$O/T=0.000127 18$P/T=6.9E-6 23
182IRS G KC=0.063 19$LC=0.0139 19$MC=0.0033 4
182IRS G NC=0.00081 10$OC=0.000137 19$PC=7.4E-6 24
182IR L 452.52 16 (2)+
182IR cL $Configuration=K|p=2+, |p1/2[541]~#|n5/2[512]
182IR E 0.03 2 0.8 4 6.5 2 0.8 4 Y ?
182IRS E EAV=644 11$CK=0.7801 19$CL=0.1348 4$CM+=0.04262 13
182IR G 70.3 3 2.3 5 M1 3.00 6 9.5 19eC
182IR2 G EL1C=2.1 9$ ELC=1.4 5$ EM1C=0.38 23$ EM2C LE 0.074
182IRS G L/T=0.578 7$M/T=0.133 3
182IRS G N/T=0.0327 8$O/T=0.00580 14$P/T=0.000436 11
182IRS G LC=2.31 5$MC=0.533 10
182IRS G NC=0.1310 25$OC=0.0232 5$PC=0.00175 4
182IR G 110.9 3 0.25 4 M1(+E2) 1 LT 4.2 4 0.9 6 C
182IR2 G EKC AP 4 2
182IRS G K/T=0.58 9$L/T=0.176 48$M/T=0.043 16
182IRS G N/T=0.0105 38$O/T=0.00172 55$P/T=7.1E-5 20
182IRS G KC=2.98 78$LC=0.91 30$MC=0.222 80
182IRS G NC=0.054 20$OC=0.0089 28$PC=3.67E-4 99
182IR cG TI$0.3 to 1.4 (2007Ho20)
182IR G 262.3 3 1.5 2 M1(+E2) 1.7 LT 0.308 98 2.1 5 eC
182IR2 G K/L=5 4$ EKC=0.32 17$ ELC=0.07 5
182IRS G K/T=0.185 59$L/T=0.039 4$M/T=0.0091 8
182IRS G N/T=0.00224 21$O/T=0.00038 5$P/T=2.23E-5 93
182IRS G KC=0.242 94$LC=0.050 4$MC=0.0119 6
182IRS G NC=0.00292 15$OC=0.00050 5$PC=2.9E-5 12
182IR DG $ MR(E2/M1)<1.7
182IR G 278.1 3 1.2 2 E1 0.0303 1.2 2 eC
182IR2 G EKC<0.06
182IRS G K/T=0.0243 4$L/T=0.00390 6$M/T=0.000895 13
182IRS G N/T=0.000218 4$O/T=3.75E-5 6$P/T=2.39E-6 4
182IRS G KC=0.0251 4$LC=0.00402 6$MC=0.000922 14
182IRS G NC=0.000225 4$OC=3.86E-5 6$PC=2.46E-6 4
182IR L 458.31 25 (2,3,4)+
182IR E 0.0046 21 0.11 5 7.3 2 0.11 5 Y ?
182IRS E EAV=642 11$CK=0.7805 19$CL=0.1349 4$CM+=0.04265 13
182IR G 458.4 3 1.0 2 M1(+E2) 0.6 LT 0.082 9 1.1 2 C
182IR2 G EKC=0.089 28
182IRS G K/T=0.063 7$L/T=0.0103 8$M/T=0.00238 16
182IRS G N/T=0.00058 4$O/T=0.000103 8$P/T=7.6E-6 9
182IRS G KC=0.068 8$LC=0.0112 8$MC=0.00257 18
182IRS G NC=0.00063 5$OC=0.000112 9$PC=8.2E-6 9
182IR DG $ MR(E2/M1)<0.6
182IR L 615.21 24 (2,3)+
182IR G 157.0 3 0.22 3 [M1,E2] 1.25 450.4 2 C
182IRS G K/T=0.38 15$L/T=0.134 39$M/T=0.033 12
182IRS G N/T=0.0080 28$O/T=0.00130 39$P/T=4.5E-5 33
182IRS G KC=0.85 55$LC=0.30 8$MC=0.074 22
182IRS G NC=0.0180 52$OC=0.0029 7$PC=1.02E-4 71
182IR cG TI$0.2 to 0.6 (2007Ho20)
182IR G 615.1 3 0.51 8 M1+E2 0.8 AP 0.0312 AP 0.5 1 C
182IR2 G EKC AP 0.026
182IRS G K/T AP 0.0248$L/T AP 0.00421$M/T AP 0.000974
182IRS G N/T AP 0.000239$O/T AP 4.19E-5$P/T AP 2.96E-6
182IRS G KC AP 0.0256$LC AP 0.00434$MC AP 0.001004
182IRS G NC AP 0.000246$OC AP 4.32E-5$PC AP 3.06E-6
182IR L 636.88 16 (1,2)+
182IR E 0.023 7 0.82 23 6.4 1 0.84 24
182IRS E EAV=564 11$CK=0.7920 15$CL=0.1375 4$CM+=0.04350 11
182IR G 184.8 3 0.65 10M1(+E2) 1.2 LT 0.89 19 1.2 4 eC
182IR2 G K/L=7 5$ EKC=0.8 3$ ELC=0.11 6
182IRS G K/T=0.36 7$L/T=0.083 10$M/T=0.020 3
182IRS G N/T=0.0048 7$O/T=0.00082 10$P/T=4.4E-5 15
182IRS G KC=0.68 20$LC=0.156 13$MC=0.037 5
182IRS G NC=0.0091 10$OC=0.00154 10$PC=8.3E-5 26
182IR G 353.3 3 0.4 1 (M1) 0.181 0.5 1 C
182IR2 G EKC AP 0.2
182IRS G K/T=0.1266 16$L/T=0.0204 3$M/T=0.00468 7
182IRS G N/T=0.001150 17$O/T=0.000204 3$P/T=1.545E-5 23
182IRS G KC=0.1495 22$LC=0.0240 4$MC=0.00552 8
182IRS G NC=0.001358 20$OC=0.000241 4$PC=1.82E-5 3
182IR G 377.2 3 2.7 4 M1(+E2) 0.5 LT 0.141 11 3.1 6 eC
182IR2 G EKC=0.13 3$ EKC=0.20 9$ EL1C+EL2C=0.020 5
182IRS G K/T=0.102 8$L/T=0.0169 8$M/T=0.00390 17
182IRS G N/T=0.00096 5$O/T=0.000169 9$P/T=1.24E-5 11
182IRS G KC=0.116 10$LC=0.0193 9$MC=0.00445 19
182IRS G NC=0.00109 5$OC=0.000193 10$PC=1.41E-5 12
182IR DG $ MR(E2/M1)<0.5
182IR G 549.3 3 0.5 1 [M1,E2] 0.038 19 0.5 1 C
182IRS G K/T=0.029 16$L/T=0.0052 19$M/T=0.00122 42
182IRS G N/T=3.0E-4 11$O/T=5.2E-5 20$P/T=3.5E-6 20
182IRS G KC=0.031 17$LC=0.0054 20$MC=0.00127 43
182IRS G NC=3.1E-4 11$OC=5.4E-5 20$PC=3.6E-6 20
182IR G 561.9 3 3.2 4 M1(+E2) 0.7 LT 0.047 6 3.4 6 C
182IR2 G EKC=0.047 14
182IRS G K/T=0.037 5$L/T=0.0061 6$M/T=0.00140 13
182IRS G N/T=0.00034 4$O/T=6.1E-5 6$P/T=4.5E-6 6
182IRS G KC=0.039 5$LC=0.0064 7$MC=0.00147 14
182IRS G NC=0.00036 4$OC=6.4E-5 7$PC=4.7E-6 7
182IR DG $ MR(E2/M1)<0.7
182IR L 662.76 14 (1,2)+
182IR cL $Configuration=|p3/2[532]~#|n5/2[512]
182IR E 0.007 4 0.28 14 6.8 2 0.29 14
182IRS E EAV=552 11$CK=0.7934 14$CL=0.1378 4$CM+=0.04361 11
182IR G 210.3 3 1.4 2 M1,E2 0.52 23 2.0 6 eC
182IR2 G EKC=0.7 6
182IRS G K/T=0.25 12$L/T=0.068 11$M/T=0.017 3
182IRS G N/T=0.0040 7$O/T=0.00067 11$P/T=3.0E-5 21
182IRS G KC=0.38 24$LC=0.104 4$MC=0.0251 21
182IRS G NC=0.0061 5$OC=0.001018 20$PC=4.5E-5 31
182IR cG $|a(K)exp=0.10 to 1.2 (2007Ho20)
182IR G 403.1 3 1.0 2 M1(+E2) 0.7 LT 0.113 15 1.1 2 eC
182IR2 G EKC=0.13 5
182IRS G K/T=0.083 11$L/T=0.0140 12$M/T=0.00324 25
182IRS G N/T=0.00080 7$O/T=0.000140 12$P/T=1.01E-5 15
182IRS G KC=0.093 13$LC=0.0156 13$MC=0.0036 3
182IRS G NC=0.00089 7$OC=0.000156 14$PC=1.12E-5 16
182IR DG $ MR(E2/M1)<0.7
182IR G 468.3 3 0.65 12E2+M1 1.7 6 0.043 12 0.68 15 C
182IR2 G EKC=0.033 11
182IRS G K/T=0.0321 92$L/T=0.0068 11$M/T=0.00162 23
182IRS G N/T=0.00040 6$O/T=6.7E-5 11$P/T=3.8E-6 12
182IRS G KC=0.0334 99$LC=0.0071 11$MC=0.00169 24
182IRS G NC=0.00041 6$OC=7.0E-5 12$PC=3.9E-6 13
182IR G 588.0 3 0.7 APM1 0.0471 0.7 AP C
182IR2 G EKC AP 0.054
182IRS G K/T=0.0373 5$L/T=0.00591 9$M/T=0.001355 19
182IRS G N/T=0.000333 5$O/T=5.91E-5 9$P/T=4.51E-6 7
182IRS G KC=0.0391 6$LC=0.00619 9$MC=0.001419 20
182IRS G NC=0.000349 5$OC=6.19E-5 9$PC=4.72E-6 7
182IR cG RI$|?0.7 {I1}
182IR L 782.9 3 (1,2)+
182IR G 523.2 3 0.92 14M1(+E2) 0.3 LT 0.0621 20 1.0 2 C
182IR2 G EKC=0.071 21
182IRS G K/T=0.0484 16$L/T=0.00775 21$M/T=0.00178 5
182IRS G N/T=0.000438 12$O/T=7.75E-5 21$P/T=5.85E-6 20
182IRS G KC=0.0514 17$LC=0.00823 22$MC=0.00189 5
182IRS G NC=0.000465 12$OC=8.23E-5 22$PC=6.22E-6 21
182IR DG $ MR(E2/M1)<0.3
182IR L 852.78 25 (3)+
182IR E 0.0050 12 0.35 8 6.6 1 0.36 8 Y ?
182IRS E EAV=469 11$CK=0.8017 9$CL=0.1400 3$CM+=0.04434 9
182IR G 593.6 3 0.95 14M1(+E2) 0.5 LT 0.043 3 1.0 2 C
182IR2 G EKC=0.047 12
182IRS G K/T=0.0341 25$L/T=0.0055 4$M/T=0.00126 8
182IRS G N/T=0.000309 18$O/T=5.5E-5 4$P/T=4.1E-6 4
182IRS G KC=0.036 3$LC=0.0057 4$MC=0.00131 8
182IRS G NC=0.000323 19$OC=5.7E-5 4$PC=4.3E-6 4
182IR DG $ MR(E2/M1)<0.5
182IR G 826.5 3 1.2 2 (E2) 0.00767 1.2 2
182IR2 G EKC AP 0.008
182IRS G K/T=0.00610 9$L/T=0.001164 17$M/T=0.000273 4
182IRS G N/T=6.69E-5 10$O/T=1.148E-5 17$P/T=6.94E-7 10
182IRS G KC=0.00614 9$LC=0.001173 17$MC=0.000275 4
182IRS G NC=6.74E-5 10$OC=1.157E-5 17$PC=7.00E-7 10
182IR cG $|a(K)exp gives E2+M1 with |d|?2, |DJ|p suggests E2
182IR L 904.1 3 (1,2,3)+
182IR E 0.0023 7 0.20 6 6.9 2 0.20 6
182IRS E EAV=446 11$CK=0.8033 8$CL=0.1406 3$CM+=0.04452 9
182IR G 527.2 3 0.76 11M1(+E2) 0.1 LT 0.0624 0.8 2 C
182IR2 G EKC=0.074 21
182IRS G K/T=0.0487 7$L/T=0.00774 11$M/T=0.00178 3
182IRS G N/T=0.000437 7$O/T=7.74E-5 12$P/T=5.89E-6 9
182IRS G KC=0.0517 8$LC=0.00822 12$MC=0.00189 3
182IRS G NC=0.000464 7$OC=8.23E-5 12$PC=6.26E-6 9
182IR DG $ MR(E2/M1)<0.1
182IR G 713.5 3 0.38 6 [M1,E2] 0.0195 910.4 1 C
182IR2 G EKC<0.05
182IRS G K/T=0.0157 75$L/T=0.0027 10$M/T=6.2E-4 23
182IRS G N/T=1.51E-4 56$O/T=2.7E-5 11$P/T=1.86E-6 94
182IRS G KC=0.0160 78$LC=0.0027 11$MC=6.3E-4 23
182IRS G NC=1.54E-4 57$OC=2.7E-5 11$PC=1.90E-6 96
182IR L 922.7 4 (0-:4-)
182IR E 0.0016 6 0.15 5 7.0 2 0.15 5
182IRS E EAV=438 11$CK=0.8038 8$CL=0.14074 25$CM+=0.04458 9
182IR G 577.0 3 0.89 13 E1,E2 0.011 5 0.9 2 C
182IR2 G EKC<0.01
182IR L 1002.36 14 1+
182IR E 0.055 13 6.9 14 5.3 1 7.0 14
182IRS E EAV=403 11$CK=0.8058 6$CL=0.14148 23$CM+=0.04484 8
182IR cE TI$deduced by the evaluators from intensity balance. 2007Ho20
182IR2cE give 6.9 {I22}
182IR G 339.8 3 0.76 11M1(+E2) 1.5 LT 0.154 470.9 2 eC
182IR2 G EKC=0.16 8
182IRS G K/T=0.107 33$L/T=0.020 3$M/T=0.0047 7
182IRS G N/T=0.00116 16$O/T=0.00020 4$P/T=1.29E-5 47
182IRS G KC=0.124 43$LC=0.023 4$MC=0.0054 7
182IRS G NC=0.00133 18$OC=0.00023 4$PC=1.49E-5 54
182IR G 365.6 3 2.1 3 M1(+E2) 0.6 LT 0.150 15 2.5 5 eC
182IR2 G EKC=0.14 3$ EKC=0.15 4
182IRS G K/T=0.107 11$L/T=0.0180 11$M/T=0.00416 23
182IRS G N/T=0.00102 6$O/T=0.000180 12$P/T=1.30E-5 15
182IRS G KC=0.123 14$LC=0.0207 13$MC=0.0048 3
182IRS G NC=0.00118 7$OC=0.000207 13$PC=1.50E-5 17
182IR DG $ MR(E2/M1)<0.6
182IR G 387 1 0.7 1 [M1,E2] 0.094 480.7 1 XC
182IRS G K/T=0.068 37$L/T=0.0134 38$M/T=0.00316 80
182IRS G N/T=7.7E-4 20$O/T=1.33E-4 40$P/T=8.1E-6 50
182IRS G KC=0.075 43$LC=0.0147 42$MC=0.0035 9
182IRS G NC=8.5E-4 22$OC=1.46E-4 43$PC=8.9E-6 54
182IR G 549.6 3 1.7 3 M1(+E2) 0.1 LT 0.0560 1.8 4 C
182IR2 G EKC=0.060 14
182IRS G K/T=0.0440 6$L/T=0.00698 10$M/T=0.001601 23
182IRS G N/T=0.000394 6$O/T=6.98E-5 10$P/T=5.31E-6 8
182IRS G KC=0.0464 7$LC=0.00737 11$MC=0.001691 25
182IRS G NC=0.000416 6$OC=7.37E-5 11$PC=5.61E-6 9
182IR DG $ MR(E2/M1)<0.1
182IR G 620.2 3 0.78 12[E2] 0.01429 0.8 1 C
182IR2 G EKC LE 0.027
182IRS G K/T=0.01090 16$L/T=0.00244 4$M/T=0.000581 9
182IRS G N/T=0.0001419 20$O/T=2.39E-5 4$P/T=1.241E-6 18
182IRS G KC=0.01106 16$LC=0.00247 4$MC=0.000589 9
182IRS G NC=0.0001439 21$OC=2.43E-5 4$PC=1.258E-6 18
182IR G 625.1 3 1.5 2 M1(+E2) 1.6 LT 0.0308 95 1.5 2 C
182IR2 G EKC=0.052 35
182IRS G K/T=0.0245 77$L/T=0.0041 10$M/T=0.00095 23
182IRS G N/T=0.00023 6$O/T=4.1E-5 11$P/T=2.93E-6 98
182IRS G KC=0.0253 81$LC=0.0042 11$MC=0.00098 23
182IRS G NC=0.00024 6$OC=4.2E-5 11$PC=3.0E-6 10
182IR DG $ MR(E2/M1)<1.6
182IR G 656.6 3 9.9 10E1 0.00453 9.9 10 C
182IR2 G EKC=0.0040 10
182IRS G K/T=0.00378 6$L/T=0.000565 8$M/T=0.0001288 18
182IRS G N/T=3.15E-5 5$O/T=5.52E-6 8$P/T=3.96E-7 6
182IRS G KC=0.00380 6$LC=0.000568 8$MC=0.0001293 19
182IRS G NC=3.16E-5 5$OC=5.54E-6 8$PC=3.98E-7 6
182IR G 681.4 3 18.0 18E1 0.00421 18.1 18 C
182IR2 G EKC=0.0040 7
182IRS G K/T=0.00351 5$L/T=0.000524 8$M/T=0.0001193 17
182IRS G N/T=2.92E-5 4$O/T=5.12E-6 8$P/T=3.69E-7 6
182IRS G KC=0.00353 5$LC=0.000526 8$MC=0.0001198 17
182IRS G NC=2.93E-5 5$OC=5.14E-6 8$PC=3.70E-7 6
182IR G 718.6 3 0.67 10M1(+E2) 0.6 LT 0.0257 24 0.7 1 C
182IR2 G EKC=0.030 11
182IRS G K/T=0.0208 20$L/T=0.0033 3$M/T=0.00076 6
182IRS G N/T=0.000187 15$O/T=3.3E-5 3$P/T=2.49E-6 25
182IRS G KC=0.0213 21$LC=0.0034 3$MC=0.00078 6
182IRS G NC=0.000192 15$OC=3.4E-5 3$PC=2.6E-6 3
182IR DG $ MR(E2/M1)<0.6
182IR G 742.7 3 0.44 7 M1(+E2) 2 LT 0.0193 650.5 1 C
182IR2 G EKC=0.020 10
182IRS G K/T=0.0156 54$L/T=0.00258 72$M/T=6.0E-4 17
182IRS G N/T=1.46E-4 40$O/T=2.57E-5 73$P/T=1.86E-6 68
182IRS G KC=0.0159 56$LC=0.00263 74$MC=6.1E-4 17
182IRS G NC=1.49E-4 41$OC=2.62E-5 75$PC=1.89E-6 69
182IR G 791.4 3 3.1 4 M1 0.0219 3.1 4 C
182IR2 G EKC=0.031 7
182IRS G K/T=0.01785 25$L/T=0.00280 4$M/T=0.000641 9
182IRS G N/T=0.0001576 23$O/T=2.80E-5 4$P/T=2.14E-6 3
182IRS G KC=0.0182 3$LC=0.00286 4$MC=0.000655 10
182IRS G NC=0.0001610 23$OC=2.86E-5 4$PC=2.19E-6 3
182IR G 808.0 3 0.46 7 (M1) 0.0208 0.5 1 C
182IR2 G EKC AP 0.023
182IRS G K/T=0.01695 24$L/T=0.00265 4$M/T=0.000608 9
182IRS G N/T=0.0001495 21$O/T=2.65E-5 4$P/T=2.03E-6 3
182IRS G KC=0.01730 25$LC=0.00271 4$MC=0.000621 9
182IRS G NC=0.0001526 22$OC=2.71E-5 4$PC=2.07E-6 3
182IR G 812.2 3 0.67 10[E2] 0.00796 0.7 1 C
182IRS G K/T=0.00631 9$L/T=0.001215 17$M/T=0.000285 4
182IRS G N/T=6.98E-5 10$O/T=1.197E-5 17$P/T=7.19E-7 10
182IRS G KC=0.00636 9$LC=0.001225 18$MC=0.000288 4
182IRS G NC=7.04E-5 10$OC=1.207E-5 17$PC=7.24E-7 11
182IR G 914.9 3 1.1 2 1.1 2 C
182IR L 1024.87 16 (1)+
182IR E 0.018 4 2.5 5 5.7 1 2.5 5
182IRS E EAV=393 11$CK=0.8062 6$CL=0.14168 23$CM+=0.04491 8
182IR cE TI$deduced by the evaluators from intensity balance. 2007Ho20
182IR2cE give 2.4 {I8}
182IR G 241.9 3 0.53 8 M1(+E2) 0.5 LT 0.47 4 0.8 2 C
182IR2 G EKC=0.48 13
182IRS G K/T=0.263 16$L/T=0.0455 13$M/T=0.0106 3
182IRS G N/T=0.00260 7$O/T=0.000455 14$P/T=3.2E-5 3
182IRS G KC=0.39 4$LC=0.0671 12$MC=0.01558 23
182IRS G NC=0.00383 6$OC=0.000671 14$PC=4.7E-5 5
182IR DG $ MR(E2/M1)<0.5
182IR G 362.2 3 1.5 2 M1(+E2) 0.7 LT 0.150 19 1.8 4 eC
182IR2 G EKC=0.12 3$ EKC=0.16 6
182IRS G K/T=0.107 14$L/T=0.0182 14$M/T=0.0042 3
182IRS G N/T=0.00104 8$O/T=0.000182 15$P/T=1.30E-5 19
182IRS G KC=0.123 17$LC=0.0210 16$MC=0.0049 4
182IRS G NC=0.00119 8$OC=0.000209 16$PC=1.49E-5 22
182IR DG $ MR(E2/M1)<0.7
182IR G 388.1 3 1.0 2 M1(+E2) 0.8 LT 0.122 19 1.1 2 eC
182IR2 G EKC=0.14 6
182IRF G FLAG=X
182IRS G K/T=0.089 14$L/T=0.0152 15$M/T=0.0035 3
182IRS G N/T=0.00086 8$O/T=0.000152 16$P/T=1.08E-5 19
182IRS G KC=0.100 17$LC=0.0171 17$MC=0.0040 4
182IRS G NC=0.00097 9$OC=0.000170 17$PC=1.21E-5 21
182IR DG $ MR(E2/M1)<0.8
182IR G 572.3 3 3.7 4 M1 0.0505 3.9 5 C
182IR2 G EKC=0.049 12
182IRS G K/T=0.0399 6$L/T=0.00632 9$M/T=0.001451 21
182IRS G N/T=0.000357 5$O/T=6.33E-5 9$P/T=4.82E-6 7
182IRS G KC=0.0419 6$LC=0.00664 10$MC=0.001524 22
182IRS G NC=0.000375 6$OC=6.65E-5 10$PC=5.06E-6 8
182IR cG $|d(E2/M1)<0.5
182IR G 642.7 3 0.83 12[E2] 0.01319 0.9 2 C
182IRS G K/T=0.01013 14$L/T=0.00221 4$M/T=0.000526 8
182IRS G N/T=0.0001286 18$O/T=2.17E-5 3$P/T=1.153E-6 17
182IRS G KC=0.01026 15$LC=0.00224 4$MC=0.000533 8
182IRS G NC=0.0001302 19$OC=2.20E-5 3$PC=1.168E-6 17
182IR G 647.8 3 1.3 2 M1(+E2) 0.9 LT 0.031 6 1.3 2 C
182IR2 G EKC=0.028 7
182IRS G K/T=0.025 5$L/T=0.0041 6$M/T=0.00094 13
182IRS G N/T=0.00023 4$O/T=4.1E-5 6$P/T=3.0E-6 6
182IRS G KC=0.026 5$LC=0.0042 6$MC=0.00097 13
182IRS G NC=0.00024 4$OC=4.2E-5 6$PC=3.1E-6 6
182IR G 679.3 3 2.3 3 [E1] 0.00424 2.3 3 C
182IR2 G EKC LE 0.01
182IRS G K/T=0.00354 5$L/T=0.000528 8$M/T=0.0001201 17
182IRS G N/T=2.94E-5 5$O/T=5.15E-6 8$P/T=3.71E-7 6
182IRS G KC=0.00355 5$LC=0.000530 8$MC=0.0001206 17
182IRS G NC=2.95E-5 5$OC=5.17E-6 8$PC=3.72E-7 6
182IR G 703.9 3 2.3 3 E1 0.00395 2.3 3 C
182IR2 G EKC<0.007
182IRS G K/T=0.00330 5$L/T=0.000491 7$M/T=0.0001117 16
182IRS G N/T=2.73E-5 4$O/T=4.79E-6 7$P/T=3.46E-7 5
182IRS G KC=0.00331 5$LC=0.000493 7$MC=0.0001121 16
182IRS G NC=2.74E-5 4$OC=4.81E-6 7$PC=3.48E-7 5
182IR G 834.3 3 0.78 12[E2] 0.00752 0.8 1 C
182IRS G K/T=0.00599 9$L/T=0.001138 16$M/T=0.000267 4
182IRS G N/T=6.53E-5 10$O/T=1.122E-5 16$P/T=6.82E-7 10
182IRS G KC=0.00603 9$LC=0.001147 16$MC=0.000269 4
182IRS G NC=6.58E-5 10$OC=1.131E-5 16$PC=6.87E-7 10
182IR L 1135.67 23 (1,2)+
182IR E 0.0063 15 1.5 3 5.9 1 1.5 3
182IRS E EAV=345 11$CK=0.8079 3$CL=0.14262 21$CM+=0.04524 8
182IR G 790.0 3 3.4 APE1 0.00316 3.4 AP C
182IR2 G EKC=0.0032 15
182IRS G K/T=0.00264 4$L/T=0.000390 6$M/T=8.87E-5 13
182IRS G N/T=2.17E-5 3$O/T=3.81E-6 6$P/T=2.79E-7 4
182IRS G KC=0.00265 4$LC=0.000391 6$MC=8.90E-5 13
182IRS G NC=2.18E-5 3$OC=3.83E-6 6$PC=2.79E-7 4
182IR cG RI$ |?3.4 {I4}, contaminated by a |g ray from {+182}Ir decay
182IR G 814.8 3 5.1 6 E1 0.00297 5.1 6 C
182IR2 G EKC=0.0044 15
182IRS G K/T=0.00249 4$L/T=0.000367 6$M/T=8.35E-5 12
182IRS G N/T=2.04E-5 3$O/T=3.59E-6 5$P/T=2.63E-7 4
182IRS G KC=0.00250 4$LC=0.000368 6$MC=8.37E-5 12
182IRS G NC=2.05E-5 3$OC=3.60E-6 5$PC=2.64E-7 4
182IR G 924.6 3 0.66 10M1(+E2) 0.6 LT 0.0136 12 0.7 1 C
182IR2 G EKC=0.017 7
182IRS G K/T=0.0112 10$L/T=0.00176 14$M/T=0.00040 3
182IRS G N/T=9.9E-5 8$O/T=1.76E-5 14$P/T=1.33E-6 12
182IRS G KC=0.0113 10$LC=0.00178 14$MC=0.00041 3
182IRS G NC=0.000100 8$OC=1.78E-5 14$PC=1.35E-6 13
182IR DG $ MR(E2/M1)<0.6
182IR L 1540.7 4 (0+:4+)
182IR E 0.098 25 6.8 1 0.098 25
182IRS E CK=0.8075 3$CL=0.14587 23$CM+=0.04643 9
182IR G 1281.1 3 0.6 1 0.6 1 C