221FR 225AC A DECAY 2000AR23,2003KU44 07NDS 200705
221FR H TYP=FUL$AUT=Ashok Jain, Sukhjeet Singh, Suresh Kumar, Jagdish Tuli$
221FR2 H CIT=NDS 108, 883 (2007)$CUT=15-Jan-2007$
221FR c 2003Ku44: Measured |a, |g, |a-|g coin, semi
221FR c 2000Ar23: Measured |g. Deduced |a feeding
221FR c 1972Dz14: Measured |g, x Rays, semi
221FR c 1967Dz02, 1967Ba51: Measured |a, s
221FR c Others: 1972Dz14, 1967Dz02, 1967Ba51
221FR c |a|g(|q): 1969LeZW, 1975PeZO, 1977LiYX.
221FR cL $1988Sh12 intrepret levels as quadrupole-octupole deformed 1/2|+,
221FR2cL 3/2|+, 5/2|+ and 3/2|+ parity doublets. Alternately, 1992Kv03 interpret
221FR3cL the levels in terms of octupole phonon admixtures.
221FR cL J$From 2003Ku44. J|p for some of the negative parity excited states
221FR2cL were deduced by 1977LiYX from their |a|g(|q) correlations (data were
221FR3cL not given), and Coriolis-coupled band calculations.
221FR cL T$From 1978AgZX using the Doppler-shift method, except where given
221FR2cL otherwise.
221FR cA E$From 1967Ba51 and 1967Dz02, except where otherwise noted.
221FR2cA Original energies of 1967Ba51 are increased by 1 keV and energies of
221FR3cA 1967Dz02 decreased by 0.3 keV, as recommended by 1979Ry03, due to
221FR4cA changes in calibration energies. Other measurements: 1956Hu96,
221FR5cA 1962Wa28, 1964Va20.
221FR cA IA$From 1967Dz02 and 1967Ba51, except where noted otherwise.
221FR2cA Other measurements: 1964Va20, 2003Ku44, 2000Ar23.
221FR cA HF r{-0}({+221}Fr)=1.5501 is used in calculations.
221FR cA E(B) This |a was not observed by 1967Ba51.
221FR cA E(D) This |a was not observed by 1967Dz02.
221FR cG |a|g: 2003Ku44, 1964Va20; 1967Le23 and 1969LeZW also discuss
221FR2cG |a|g coinc. results, but the specific data and spectra are not
221FR3cG given.
221FR cG E,RI$From 2003Ku44, except where otherwise noted.Other
221FR2cG measurements:2000Ar23, 1955St04, 1956Hu96, 1964Va20, 1967Le23,
221FRxcG 1967LoZZ, 1972Dz14.
221FR cG RI Relative photon intensities measured by 2003Ku44, unless
221FR2cG otherwise noted. Other measurements: 1972Dz14, 1967Le23, 1981Di14,
221FR3cG 2000Ar23. See 1966Wa23 for a comparison of earlier measurements.
221FR cG M,MR$Multipolarities and |d from ce data of 1969Dz04, 1970Dz12, and
221FR2cG 1971DzZP as summarized by 1972Dz14, and from {+221}Rn |b{+-} decay,
221FR3cG unless stated otherwise. See also 1966Wa23 and 1969Le09.
221FR cG M(M)$Multipolarities from 2003Ku44.
221FR cG $Multipolarities in brackets are from the level scheme. These are
221FR2cG not measured.
221FR cG M(I)$Assumed by the evaluator by considering intensity balances,
221FR2cG if there are no more appreciable gammas deexciting or feeding
221FR3cG the levels involved.
221FR cG E(O)$placements are not in conflict with the |a|g coin (2003Ku44)
221FR4cG The Ice's given by 1972Dz14 were normalized such that the conversion
221FR5cG coefficient for the 218.0|g in {+217}At agrees with E2 theory
221FR6cG (1972Dz14): |a(K)=0.14, |a(L1)=0.022, |a(L2)=0.096, |a(L3)=0.050 were
221FRxcG used for 218|g (1969Dz06).
221FR cG E(P) From 2003Ku44; Possibility that they belong to 213Bi decay
221FR2cG should not be excluded.
221FR cG E(Q)$Reported by 1990ArZZ but not by 2000ArZZ and 2003Ku44
221FR cG E(S) From {+221}Rn |b{+-} decay; transition was seen in {+225}Ac
221FRxcG |a decay.
221FR cG RI(S) From relative photon branching measured in {+221}Rn |b{+-}
221FRxcG decay.
221FR cG The following |g rays were reported by 2000Ar23 but
221FR2cG not by 2003Ku44:
221FR tG $ E|g I|g E|g I|g
221FR2tG -------- --------- ----------- ---------
221FR3tG 53.01 {I5} < 0.004 442.16 {I8} 0.0045 {I7}
221FR4tG 62.6 {I3} <0.03 443.43 {I10} 0.0014 {I5}
221FR5tG 63.5 {I3} 0.021 {I3} 446.31 {I10} 0.0006 {I3}
221FR6tG 69.87 {I5} 0.0047 {I12} 527.29 {I5} 0.0019 {I3}
221FR7tG 119.09 {I6} 0.018 {I3} 532.11 {I9} 0.00073 {I19}
221FR8tG 121.06 {I7} 0.017 {I5} 656.18 {I11} 0.00049 {I23}
221FR9tG 161.35 {I7} 0.0036 {I9} 657.88 {I5} 0.0014 {I3}
221FR2tG 220.43 {I8} 0.0060 {I18} 702.00 {I14} 0.00016 {I7}
221FR3tG 238.64 {I8} 0.0010 {I3} 752.46 {I12} 0.00026 {I7}
221FR4tG 388.07 {I7} 0.00121 {I23} 808.48 {I10} 0.0021 {I3}
221FR5tG 429.80 {I18} 0.00038 {I19}
225AC P 0.0 (3/2-) 10.0 D 1 5935.1 14
221FR N 1.00 1.0 1.0
221FR cN NR$The Normalization factor is revised in view of the comments
221FR2cN of 2000Ar23. The earlier value obtained by 1990Ak05 was 1.09.
221FR G 173.4 0.010 1 P ?
221FR G 183 0.0073 11 P ?
221FR G 193.2 0.0017 3 P ?
221FR G 231.3 2 0.0066 6 P ?
221FR G 348.2 4 0.0025 3 P ?
221FR G 538.1 1 0.001 AP Q ?
221FR G 646.3 3 0.00010 4
221FR G 653.5 4 0.00015 4
221FR G 668.1 4 0.00024 7
221FR G 674.3 4 0.00007 4
221FR G 698.4 4 0.00017 5
221FR G 747 0.0001 LT
221FR G 753.7 0.0001 LT
221FR G 768.4 5 0.00024 7
221FR L 0.0 5/2- 4.9 M 2
221FR A 5830 2 50.7 15 11.1 4
221FR L 26.01 6(1/2)-
221FR A 5805 2 0.3 1404 D
221FR G 26.0 0.0015 5 (E2) 5.94E3 M
221FR2 G CEL2=2.72 16$CEL3=2.68 7$CEM2=1.00 25$CEM3=1.22 26 (2003Ku44)
221FRS G LC=4.39E3 7$MC=1176 17$NC+=378 6
221FRS G NC=307 5$OC=63.3 9$PC=8.01 12$QC=0.00946 14
221FR cG M3:N1:N2:N3=0.9 {I1}:<0.025:0.25 {I5}:0.25 {I5}
221FR cG M$M1+E2 from ce,M1 admixture is <60% (2003Ku44)
221FR L 36.66 6(3/2)- 1.5 NS 2
221FR cL T$From 1978LiZN ce(t)
221FR A 5792.5 22 18.1 20 20.6 23
221FR cA E,IA$ from 1972Go29.
221FR G 10.642 5 8.5 15
221FR2 G CEM1=2.20 13$CEM2=0.28 6$CEM3 LT 0.15$CEN1=0.78 6 (2003Ku44)
221FR cG $2003Ku44, 2002Ya04 confirm this transition which was proposed by
221FR2cG 1972Go29 and 1972Dz14 to account for intensity imbalances at the 26-
221FR3cG and 37-keV levels.
221FR G 36.7 1 0.0155 14E2+M1 6.E2 6 M
221FR2 G CEL2=5.69 23$CEL3=6.20 29(2003Ku44)
221FR cG $L1:L2:L3:M2:M3:N2:N3=0.2 {I1}:6.1 {I7}:6.2 {I8}:1.7 {I2}:1.7 {I2}:0.5
221FRxcG {I1}:0.5 {I1}
221FRS G LC=4.E2 4$MC=1.1E2 11$NC+=4.E1 4
221FRS G NC=3.E1 3$OC=6 6$PC=0.8 7$QC=0.0035 16
221FR cG $M1 admixture is <20% (2003Ku44)
221FR L 38.53 6 (9/2)-
221FR A 5790.6 22 8.6 9 43 5
221FR cA E from 1972Go29.
221FR cA IA from 1972Go29.
221FR G 38.5 1 0.0094 8 E2 863 17 M
221FR2 G CEL2=3.07 17$CEL3=3.66 32 (2003Ku44)
221FRS G LC=637 12$MC=171 4$NC+=55.1 11
221FRS G NC=44.7 9$OC=9.23 18$PC=1.173 23$QC=0.00158 3
221FR cG $L1:L2:L3:M2:M3:N2:N3=0.11 {I7}:3.1 {I3}: 3.1 {I4}:0.8 {I1}:0.8
221FRxcG {I1}:0.25 {I5}:0.25 {I5}
221FR cG M$M1 admixture <10% (2003Ku44)
221FR L 99.62 7(3/2)- 80 PS 30
221FR A 5732 2 8.0 5 22.8 15
221FR cA IA from intensity balance at the 99.62-keV level.
221FR2cA I|a=10.0 {I1} was measured which is assumed to include expected
221FR3cA |a's to the 99.85 and 100.93-keV levels.
221FR G 62.9 1 0.43 2 M1 10.87 M
221FRS G LC=8.25 13$MC=1.97 3$NC+=0.651 10
221FRS G NC=0.516 8$OC=0.1154 17$PC=0.0185 3$QC=0.001035 16
221FR cG $E2 admixture is <1%
221FRB G BM1W=0.056 22
221FR G 73.5 0.025 7 E2+M1 22 16 M
221FRS G LC=16 12$MC=4 4$NC+=1.4 10
221FRS G NC=1.1 9$OC=0.24 17$PC=0.032 21$QC=0.0004 3
221FR cG $M1 admixture is >30%
221FR2cG I|g; 2003Ku44 calculated I|g using ce data from 1972Dz14.
221FR cG ce(L3)=0.21 {I5}; L1:L2:L3:M2:M3=<0.05:0.25 {I3}:0.21 {I5}:
221FR2cG 0.08 {I3}:0.06 {I2}. These conversion data suggest that possible M1
221FR3cG admixture is less than 40%.
221FR G 99.6 0.70 6 M1+E2 0.18 5 3.04 13 M
221FRS G LC=2.30 9$MC=0.56 3$NC+=0.183 8
221FRS G NC=0.146 7$OC=0.0323 14$PC=0.00509 16$QC=0.000264 6
221FR cG $E2 admixture is (3+-1)%
221FR cG RI$2003Ku44 calculated I|g using ce data from 1972Dz14.
221FR cG ce(L1)=1.30 {I15}; L1:L2:L3:M1:M3=1.30 {I15}:0.20 {I3}:0.070
221FR2cG {I15}: 0.39 {I5}:0.07 {I2}.
221FRB G BM1W=0.022 9$BE2W=23 16
221FR L 99.85 7(3/2)+ 160 PS 30
221FR A 5732 2 1.32 10 138 11
221FR cA IA$from intensity balance at the 99.85-keV level.
221FR G 73.9 1 0.264 17E1 0.240 M
221FRS G LC=0.182 3$MC=0.0439 7$NC+=0.01401 21
221FRS G NC=0.01129 17$OC=0.00238 4$PC=0.000329 5$QC=1.091E-5 16
221FR cG $M2 admixture is >0.5% (2003Ku44)
221FR cG RI$2003Ku44 calculated I|g using ce data from 1972Dz14.
221FRB G BE1W=0.00053 12
221FR G 99.8 1 1.00 11E1(+M2) 0.1076 M
221FRS G LC=0.0816 12$MC=0.0196 3$NC+=0.00631 9
221FRS G NC=0.00507 8$OC=0.001080 16$PC=0.0001538 22$QC=5.58E-6 8
221FR cG $M2 admixture is >0.3% (2003Ku44)
221FR cG RI$2003Ku44 calculated I|g using ce data from 1972Dz14.
221FRB G BE1W=0.00081 19
221FR L 100.93 6(5/2)-
221FR A 5731 2 0.87 23 207 55 S
221FR cA E from Q(|a)=5935.3 {I20} and E(level)=100.93; this |a was not
221FR2cA observed. Recent observation in 2003Ku44 and 2000Ar23.
221FR cA IA from intensity balance at the 100.93-keV level.
221FR G 64.3 1 0.041 4 M1+E2 0.45 13 20 6 M
221FRS G LC=15 4$MC=3.9 11$NC+=1.3 4
221FRS G NC=1.0 3$OC=0.22 6$PC=0.031 7$QC=0.00084 7
221FR cG $E2 admixture is (17|+5)%
221FR G 74.6 4 0.022 7 M1+E2 0.5 AP 12.3 AP M
221FRS G LC AP 9.17$MC AP 2.35$NC+ AP 0.767
221FRS G NC AP 0.617$OC AP 0.132$PC AP 0.0187$QC AP 0.000521
221FR cG $E2 admixture is 20%.
221FR G 100.8 2 0.075 6 M1+E2 6 3 M
221FRS G LC=4.2 21$MC=1.1 6$NC+=0.36 19
221FRS G NC=0.29 16$OC=0.06 4$PC=0.008 4$QC=0.00015 12
221FR L 108.40 6(7/2)- 280 PS AP
221FR A 5724 3 3.1 5 53 9
221FR G 69.87 5 0.0047 12E2+M1 28 20
221FRS G LC=21 15$MC=5 4$NC+=1.8 13
221FRS G NC=1.4 11$OC=0.30 22$PC=0.04 3$QC=0.0004 4
221FR cG E,RI$From 2000Ar23; seen also in |b{+-} decay
221FR G 71.4 3 0.0126 25E2+M1 25 18 M
221FRS G LC=19 13$MC=5 4$NC+=1.6 12
221FRS G NC=1.3 10$OC=0.27 20$PC=0.036 24$QC=0.0004 3
221FR cG $M1 admixture is >25%
221FR G 108.4 1 0.216 11M1+E2 0.53 13 10.3 5 M
221FR2 G CEK=1.19 10 (2003Ku44)
221FRS G KC=7.2 8$LC=2.30 24$MC=0.58 7$NC+=0.190 22
221FRS G NC=0.152 18$OC=0.033 4$PC=0.0048 4$QC=0.000171 16
221FR cG $E2 Admixture is (22|+4)%
221FRB G BM1W AP 0.0036$BE2W AP 28
221FR L 145.93 10(1/2)+
221FR A 5829.9 14 0.023 4661
221FR cA $Observed by 2003Ku44
221FR G 46.2 2 0.0039 6 [E1] 0.843 16
221FR3 G FL=99.62
221FRS G LC=0.638 12$MC=0.156 3$NC+=0.0492 9
221FRS G NC=0.0398 8$OC=0.00821 15$PC=0.001068 19$QC=3.01E-5 5
221FR G 119.9 1 0.066 3 [E1] 0.305
221FRS G KC=0.238 4$LC=0.0503 8$MC=0.01206 17$NC+=0.00389 6
221FRS G NC=0.00312 5$OC=0.000668 10$PC=9.67E-5 14$QC=3.69E-6 6
221FR cG I|g=0.068 {I6} was measured. Intensity of the part deexciting
221FR2cG the 393.28-keV level was deduced by the evaluator from
221FR3cG I|g(119|g)/I|g(169|g)=0.28 {I4}/0.26 {I3}, as measured in {+221}Rn
221FRxcG |b{+-} decay.
221FR L 150.05 7 (7/2)+ 80 PS 20
221FR A 5682 2 1.3 2 79 13
221FR G 49.1 2 0.0066 7 (E1) 0.716 13
221FR3 G FL=100.93
221FRS G LC=0.542 10$MC=0.1322 24$NC+=0.0418 8
221FRS G NC=0.0338 6$OC=0.00699 13$PC=0.000918 16$QC=2.65E-5 5
221FRB G BE1W=0.00012 4
221FR G 111.5 1 0.264 14(E1) 0.363
221FRS G KC=0.283 4$LC=0.0609 9$MC=0.01462 21$NC+=0.00470 7
221FRS G NC=0.00378 6$OC=0.000808 12$PC=0.0001162 17$QC=4.35E-6 7
221FRB G BE1W=0.00041 11
221FR G 150.1 1 0.60 3 E1 0.1764 M
221FRS G KC=0.1396 20$LC=0.0280 4$MC=0.00669 10$NC+=0.00216 3
221FRS G NC=0.001733 25$OC=0.000374 6$PC=5.49E-5 8$QC=2.22E-6 4
221FR cG $M2 Admixture is <0.4%
221FRB G BE1W=0.00038 10
221FR L 195.82 7 (7/2)- 20 PS 5
221FR A 5637 2 4.4 3 13.6 10
221FR G 87.4 1 0.226 13M1 4.17
221FR@ G ECC=2.8 6 (2003Ku44)
221FRS G NC=0.198 3$OC=0.0442 7$PC=0.00709 11$QC=0.000396 6
221FR cG $Admixture of E2 is <1%
221FRB G BM1W=0.11 4
221FR G 94.9 1 0.084 8 M1(+E2) 7 4 M
221FR3 G FL=100.93
221FRS G LC=5 3$MC=1.4 9$NC+=0.5 3
221FRS G NC=0.37 22$OC=0.08 5$PC=0.011 5$QC=0.00017 14
221FR cG $E2 admixture is <5%
221FR G 96.7 5 0.028 5 M1+E2 0.69 27 5.4 13 M
221FR3 G FL=99.62
221FR2 G CEL1=0.045 10
221FR cG $L1:L2:L3=0.045 {I10}:0.045 {I10}:0.06 {I2}
221FRS G LC=4.0 9$MC=1.0 3$NC+=0.34 9
221FRS G NC=0.27 7$OC=0.058 14$PC=0.0082 16$QC=0.00021 5
221FR cG $E2 admixture is (32|+12)%
221FRB G BM1W=0.007 4$BE2W=1.1E+2 8
221FR G 157.3 2 0.32 2 M1+E2 2.7 13 M
221FRS G KC=1.7 15$LC=0.70 12$MC=0.18 4$NC+=0.059 13
221FRS G NC=0.047 11$OC=0.0101 20$PC=0.00144 14$QC=4.E-5 4
221FR cG $E2 admixture is <4%
221FR G 169.9 0.012 1
221FR G 195.8 2 0.123 6 M1+E2 0.8 2 1.53 20 M
221FRS G KC=1.11 20$LC=0.314 5$MC=0.0785 17$NC+=0.0258 5
221FRS G NC=0.0206 5$OC=0.00448 8$PC=0.000667 15$QC=2.6E-5 5
221FR cG $E2 admixture is (40|+20)%
221FRB G BM1W=0.0031 12$BE2W=17 8
221FR L 224.68 6(3/2)+ 35 PS 10
221FR A 5609 3 1.1 1 39 4
221FR G 78.8 0.0107 15M1 5.63 M
221FR@ G ECC=5.1 11 (2003Ku44)
221FRS G LC=4.27 6$MC=1.019 15$NC+=0.337 5
221FRS G NC=0.267 4$OC=0.0597 9$PC=0.00958 14$QC=0.000536 8
221FRB G BM1W=0.014 5
221FR G 123.8 1 0.072 4 [E1] 0.282
221FR3 G FL=100.93
221FRS G KC=0.221 4$LC=0.0462 7$MC=0.01108 16$NC+=0.00357 5
221FRS G NC=0.00287 4$OC=0.000615 9$PC=8.92E-5 13$QC=3.43E-6 5
221FRB G BE1W=0.00021 7
221FR G 124.8 1 0.024 1 M1+E2 5.6 21 M
221FR3 G FL=99.85
221FRS G KC=3 3$LC=1.7 6$MC=0.45 18$NC+=0.15 6
221FRS G NC=0.12 5$OC=0.025 10$PC=0.0035 10$QC=8.E-5 7
221FR G 186.1 0.011 1
221FR G 188.0 1 0.45 2 E1 0.1023 M
221FRS G KC=0.0816 12$LC=0.01570 22$MC=0.00375 6$NC+=0.001216 17
221FRS G NC=0.000972 14$OC=0.000211 3$PC=3.14E-5 5$QC=1.338E-6 19
221FR cG $M2 admixture is <0.5%
221FRB G BE1W=0.00038 12
221FR G 198.4 3 0.017 1 [E1] 0.0899
221FRS G KC=0.0718 11$LC=0.01370 20$MC=0.00327 5$NC+=0.001061 16
221FRS G NC=0.000848 13$OC=0.000184 3$PC=2.75E-5 4$QC=1.186E-6 17
221FRB G BE1W=1.2E-5 4
221FR G 224.7 1 0.098 5 [E1] 0.0668
221FRS G KC=0.0536 8$LC=0.01004 14$MC=0.00239 4$NC+=0.000777 11
221FRS G NC=0.000621 9$OC=0.0001352 19$PC=2.04E-5 3$QC=9.00E-7 13
221FRB G BE1W=4.8E-5 15
221FR L 234.52 9 (5/2)+
221FR A 5598 4 0.04 946 D
221FR G 126.2 2 0.0070 6 (E1) 0.269
221FRS G KC=0.211 3$LC=0.0440 7$MC=0.01054 16$NC+=0.00340 5
221FRS G NC=0.00273 4$OC=0.000585 9$PC=8.49E-5 13$QC=3.29E-6 5
221FR G 133.6 1 0.017 1 (E1) 0.234
221FR3 G FL=100.93
221FRS G KC=0.184 3$LC=0.0379 6$MC=0.00907 13$NC+=0.00293 5
221FRS G NC=0.00235 4$OC=0.000505 8$PC=7.36E-5 11$QC=2.89E-6 4
221FR G 134.9 1 0.027 2 E1 0.229 M
221FR3 G FL=99.62
221FRS G KC=0.180 3$LC=0.0369 6$MC=0.00884 13$NC+=0.00286 4
221FRS G NC=0.00229 4$OC=0.000492 7$PC=7.18E-5 11$QC=2.83E-6 4
221FR G 197.9 0.033 3
221FR L 253.56 6 (5/2)+ 35 PS 15
221FR A 5580 3 1.2 1 25.1 22
221FR G 57.8 2 0.0039 8 [E1] 0.463 8
221FRS G LC=0.350 6$MC=0.0851 15$NC+=0.0270 5
221FRS G NC=0.0218 4$OC=0.00455 8$PC=0.000611 10$QC=1.87E-5 3
221FRB G BE1W=0.00013 7
221FR G 103.6 2 0.0023 5 [M1+E2] 10 3
221FRS G NC=0.25 14$OC=0.05 3$PC=0.007 3$QC=0.00014 11
221FR G 145.2 1 0.126 6 E1 0.191 M
221FR@ G ECC LE 0.1 (2003Ku44)
221FRS G KC=0.1512 22$LC=0.0305 5$MC=0.00729 11$NC+=0.00236 4
221FRS G NC=0.00189 3$OC=0.000407 6$PC=5.97E-5 9$QC=2.39E-6 4
221FR cG $E2 admixture is <1%
221FRB G BE1W=0.00026 12
221FR G 152.6 2 0.019 1 [E1] 0.1695
221FR3 G FL=100.93
221FRS G KC=0.1342 20$LC=0.0268 4$MC=0.00641 10$NC+=0.00207 3
221FRS G NC=0.001660 24$OC=0.000358 6$PC=5.27E-5 8$QC=2.14E-6 3
221FRB G BE1W=3.4E-5 15
221FR G 153.9 1 0.182 9 E1 0.1660 M
221FR@ G ECC LE 0.35 (2003Ku44)
221FR3 G FL=99.62
221FRS G NC=0.001624 23$OC=0.000351 5$PC=5.16E-5 8$QC=2.10E-6 3
221FRB G BE1W=0.00032 14
221FR G 216.9 2 0.271 14(E1) 0.0726
221FRS G KC=0.0582 9$LC=0.01096 16$MC=0.00261 4$NC+=0.000849 12
221FRS G NC=0.000678 10$OC=0.0001475 21$PC=2.22E-5 4$QC=9.73E-7 14
221FRB G BE1W=0.00017 8
221FR G 228.2 4 0.004 1
221FR G 253.5 1 0.116 6 [E1] 0.0503
221FRS G KC=0.0405 6$LC=0.00746 11$MC=0.001775 25$NC+=0.000578 9
221FRS G NC=0.000461 7$OC=0.0001007 15$PC=1.526E-5 22$QC=6.91E-7 10
221FRB G BE1W=4.5E-5 20
221FR L 272.7 6(7/2-,9/2-)
221FR A 5563 4 0.034 698
221FR G 236.0 6 0.0015 2
221FR L 279.21 11 (7/2)+
221FR A 5554 4 0.1 222 D
221FR G 129.2 2 0.0022 4 [M1,E2] 5.0 20
221FRS G KC=3 3$LC=1.5 5$MC=0.39 15$NC+=0.13 5
221FRS G NC=0.10 4$OC=0.022 8$PC=0.0030 8$QC=7.E-5 6
221FR G 170.7 2 0.017 1 E1 0.1291 M
221FRS G KC=0.1027 15$LC=0.0201 3$MC=0.00480 7$NC+=0.001554 23
221FRS G NC=0.001244 18$OC=0.000269 4$PC=3.99E-5 6$QC=1.662E-6 24
221FR G 178.3 2 0.014 1 E1 0.1162 M
221FR3 G FL=100.93
221FRS G KC=0.0925 14$LC=0.0180 3$MC=0.00429 7$NC+=0.001391 20
221FRS G NC=0.001112 16$OC=0.000241 4$PC=3.58E-5 6$QC=1.507E-6 22
221FR G 240.7 2 0.010 1 [E1] 0.0568
221FRS G KC=0.0457 7$LC=0.00847 12$MC=0.00202 3$NC+=0.000656 10
221FRS G NC=0.000524 8$OC=0.0001142 17$PC=1.726E-5 25$QC=7.74E-7 11
221FR G 279.3 3 0.025 2 E1 0.0402 M
221FRS G KC=0.0325 5$LC=0.00591 9$MC=0.001404 20$NC+=0.000457 7
221FRS G NC=0.000365 6$OC=7.98E-5 12$PC=1.215E-5 18$QC=5.60E-7 8
221FR L 288.14 17 (9/2)-
221FR A 5545 4 0.03 1 6.6E2 23
221FR G 179.8 3 0.0094 6 [M1,E2] 1.8 10 I
221FRS G KC=1.2 10$LC=0.43 3$MC=0.109 14$NC+=0.036 5
221FRS G NC=0.028 4$OC=0.0061 6$PC=0.000887 15$QC=2.8E-5 22
221FR G 187.2 0.0089 3
221FR G 249.6 2 0.012 1 [M1] 1.081 I
221FRS G KC=0.872 13$LC=0.1587 23$MC=0.0378 6$NC+=0.01249 18
221FRS G NC=0.00990 14$OC=0.00221 4$PC=0.000355 5$QC=1.98E-5 3
221FR L 294.7 6(9/2)+
221FR A 5540 4 0.015 1225
221FR G 144.7 0.0004 1 M1+E2 3.5 16 S
221FRS G KC=2.2 19$LC=0.96 23$MC=0.25 8$NC+=0.081 23
221FRS G NC=0.065 19$OC=0.014 4$PC=0.0020 4$QC=5.E-5 5
221FR cG M$from 2003Ku44
221FR G 186.3 0.0036 3 E1 0.1045 M
221FRS G KC=0.0834 12$LC=0.01607 23$MC=0.00383 6$NC+=0.001244 18
221FRS G NC=0.000995 14$OC=0.000216 3$PC=3.21E-5 5$QC=1.365E-6 20
221FR G 256 0.0006 2 [E1] 0.0492 S
221FRS G KC=0.0396 6$LC=0.00729 11$MC=0.001733 25$NC+=0.000564 8
221FRS G NC=0.000450 7$OC=9.84E-5 14$PC=1.491E-5 21$QC=6.76E-7 10
221FR L 393.28 15(7/2,5/2)+
221FR A 5443 3 0.14 1 39 3
221FR G 114 0.00075 10M1 9.86 M
221FR@ G ECC=13.0 17 (2003Ku44)
221FRS G KC=7.93 12$LC=1.466 21$MC=0.350 5$NC+=0.1156 17
221FRS G NC=0.0917 13$OC=0.0205 3$PC=0.00329 5$QC=0.000184 3
221FR G 139.6 0.0012 2 M1+E2 3.9 17 M
221FR@ G ECC=3.2 5 (2003Ku44)
221FRS G KC=2.4 21$LC=1.1 3$MC=0.29 9$NC+=0.09 3
221FRS G NC=0.075 24$OC=0.016 5$PC=0.0023 5$QC=6.E-5 5
221FR G 169.1 0.007 1 [M1,E2] 2.1 11
221FRS G KC=1.4 12$LC=0.53 6$MC=0.137 24$NC+=0.045 8
221FRS G NC=0.036 7$OC=0.0077 11$PC=0.00111 5$QC=3.E-5 3
221FR G 197.4 0.023 2 E1 0.0909 M
221FR@ G ECC LE 0.04 (2003Ku44)
221FRS G KC=0.0727 11$LC=0.01388 20$MC=0.00331 5$NC+=0.001075 15
221FRS G NC=0.000859 12$OC=0.000187 3$PC=2.79E-5 4$QC=1.200E-6 17
221FR G 243.2 2 0.0030 3 [M1] 1.162
221FRS G KC=0.938 14$LC=0.1706 25$MC=0.0406 6$NC+=0.01343 19
221FRS G NC=0.01065 16$OC=0.00238 4$PC=0.000382 6$QC=2.13E-5 3
221FR G 284.8 3 0.0063 5 [E1] 0.0385
221FRS G KC=0.0311 5$LC=0.00564 8$MC=0.001339 19$NC+=0.000437 7
221FRS G NC=0.000348 5$OC=7.62E-5 11$PC=1.161E-5 17$QC=5.37E-7 8
221FR G 354.9 3 0.0023 3 [E1] 0.0235
221FRS G NC=0.000208 3$OC=4.56E-5 7$PC=7.02E-6 10$QC=3.37E-7 5
221FR L 400.62 24 (7/2-)
221FR A 5436 4 0.07 2 71 21
221FR G 112.8 0.0018 2 [M1] 10.16 I
221FRS G KC=8.17 12$LC=1.512 22$MC=0.360 5$NC+=0.1192 17
221FRS G NC=0.0945 14$OC=0.0211 3$PC=0.00339 5$QC=0.000189 3
221FR G 204.7 3 0.0011 4 O
221FR G 362.2 4 0.0042 4 [M1] 0.389 I
221FRS G KC=0.314 5$LC=0.0567 9$MC=0.01349 20$NC+=0.00446 7
221FRS G NC=0.00354 5$OC=0.000790 12$PC=0.0001268 19$QC=7.08E-6 11
221FR L 410.3 12
221FR cL $Observed by 2003Ku44
221FR A 5829.9 14
221FR G 137.6 0.0019 2
221FR cG E,RI$from 2003Ku44
221FR L 497.3 4
221FR cL $Observed by 2003Ku44
221FR A 5829.9 14
221FR G 458.8 4 0.00058 22 O
221FR L 517.81 12 (5/2+)
221FR A 5321 3 0.07 1 16.3 24
221FR G 321.8 4 0.0030 4
221FR G 368.3 6 0.0006 2 O
221FR G 417.9 3 0.0048 4
221FRF G FL=99.62
221FR G 481.1 2 0.029 2
221FR G 492.6 6 0.00022 14 O
221FRF G FL=26.01
221FR G 517.9 2 0.015 1
221FR L 552.05 9 (3/2)-
221FR A 5286 3 0.23 1 3.18 15
221FR G 298.6 3 0.0018 5 O
221FR cG $From 2003Ku44
221FR G 317.4 0.00011 GT *
221FR G 356.6 0.000229 O
221FR G 406.2 3 0.0067 4 [E1] 0.01756
221FRS G KC=0.01430 21$LC=0.00249 4$MC=0.000588 9$NC+=0.000192 3
221FRS G NC=0.0001531 22$OC=3.37E-5 5$PC=5.21E-6 8$QC=2.56E-7 4
221FR G 450.1 7 0.0032 8 O
221FR G 452.4 2 0.089 5 [M1] 0.213
221FRS G KC=0.1725 25$LC=0.0310 5$MC=0.00736 11$NC+=0.00243 4
221FRS G NC=0.00193 3$OC=0.000431 6$PC=6.92E-5 10$QC=3.87E-6 6
221FR G 512.5 7 0.0005 2 O
221FR G 515.3 2 0.019 1 [M1] 0.1505
221FRS G KC=0.1218 18$LC=0.0218 3$MC=0.00518 8$NC+=0.001712 24
221FRS G NC=0.001357 19$OC=0.000303 5$PC=4.87E-5 7$QC=2.72E-6 4
221FR G 526.1 1 0.033 2 [M1] 0.1424
221FRS G KC=0.1153 17$LC=0.0206 3$MC=0.00490 7$NC+=0.001619 23
221FRS G NC=0.001283 18$OC=0.000287 4$PC=4.61E-5 7$QC=2.58E-6 4
221FR G 552.0 2 0.0056 4 [M1] 0.1253
221FRS G KC=0.1015 15$LC=0.0181 3$MC=0.00430 6$NC+=0.001423 20
221FRS G NC=0.001128 16$OC=0.000252 4$PC=4.05E-5 6$QC=2.27E-6 4
221FR L 570.83 16 (7/2+,5/2+)
221FR A 5270 4 0.014 5 41 15
221FR cA I|a=0.018 was measured by 1967Ba51, 0.009 {I2} by 1967Dz02.
221FR G 317.4 0.00011 5 *
221FR G 375.0 7 0.0017 4
221FR G 462.4 6 0.0008 3
221FR G 469.5 3 0.0028 3
221FR G 571.0 2 0.0032 5
221FR L 602.3 7 (5/2-)
221FR A 5239 4 0.0030 8 128 35
221FR cA IA 1967Ba51 set an upper limit of 0.003 for this |a group.
221FR G 565.6 7 0.00019 8 O
221FR L 630.72 13 (5/2+)
221FR A 5211 3 0.030 3 8.7 9
221FR cA I|a of 0.003 {I3} listed by 1976Dz02 is assumed to be a
221FR2cA misprint. I|a=0.025 was given by 1967Ba51.
221FR G 435.0 3 0.0024 3
221FR G 522.1 2 0.0018 3
221FR G 529.7 3 0.0071 7
221FR G 531.2 3 0.0040 5
221FR G 591.4 7 0.0007 2 O
221FR G 594.6 3 0.0028 6
221FR L 637.72 11
221FR A 5202 5 0.0020 5 118 30
221FR G 403.4 3 0.0001614 O
221FR G 601.0 3 0.0037 9
221FR G 637.1 7 0.0001 AP O
221FR L 712 5
221FR A 5131 5 0.0020 8 44 18
221FR L 714.2 6
221FR cL E$From 2003Ku44
221FR A 5131 5 0.0020 8 42 17
221FR G 568.3 6 0.0013 3 O
221FR L 749.16 20
221FR A 5092 4 0.006 1 8.7 15
221FR G 603.5 5 0.0016 4
221FR G 649.5 2 0.0012 3
221FR L 780.2 4
221FR A 5067 5 0.003 1 11 4
221FR G 545.8 6 0.00046 12
221FR G 629.9 7 0.00026 8 O
221FR G 680.4 6 0.0006115
221FR G 780.6 6 0.00005 1 O
221FR L 824.2 7
221FR A 5021 0.001 LE 18 GE
221FR G 824.2 7 0.00004 AP O