157TB 157DY EC DECAY 1997Ad08 16NDS 201602
157TB H TYP=FUL$AUT=N. NICA$CIT=NDS 132, 1 (2016)$CUT=4-Dec-2015$
157TB c {+157}Dy has been produced by several reactions including
157TB2c {+159}Tb(p,3n), {+159}Tb(d,4n), Gd(|a,xn), Er(p,3pxn),
157TB3c {+163}Dy(p,p4n), and p spallation of Ta target. Measurements
157TB4c include |g singles and |g|g coincidences with NaI and Ge
157TB5c detectors, ce in magnetic spectrometers, lifetimes by
157TB6c several methods, and |g(|q,t).
157TB c The decay scheme is that of 1997Ad08 which agrees with
157TB2c the earlier ones of 1967Bl12 and 1966Fu06 with the addition
157TB3c of several levels and many |g's. Some of the |g rays
157TB4c placed by 1997Ad08 are based on energy combinations and some
157TB5c are placed from levels previously reported in the (d,2n|g) and
157TB6c (p,t) studies.
157TB c Experimental measurements and results include:
157TB c 1953Ha81: {+157}Dy half-life measured.
157TB c 1957Go72: |g's measured with NaI and CsI detectors.
157TB c 1957Mi67: measured ce for 6 |g's, 3 multipolarities given.
157TB c 1958Do61: |g's measured with NaI detector. {+157}Dy T{-1/2} measured.
157TB c 1961Dz04: measured ce-ce coincidences.
157TB c 1961Na04: deduced J|p of 326 level and |m of ground state from
157TB2c |g(|q,t) for oriented nuclei at low temperatures.
157TB c 1961To02: deduce 6 multipolarities from ce singles and ce|g
157TB2c coincidences,
157TB c 1963Pe20: deduce multipolarities for |? 13 |g's from ce and |g
157TB2c measurements; 17 |g's from |g singles; {+157}Dy T{-1/2} measured.
157TB c 1963Ra15: {+157}Dy T{-1/2} measured.
157TB c 1964Ma10: {+157}Dy T{-1/2} measured.
157TB c 1966Fu06: decay scheme with 25 |g's; |g singles with Ge detector;
157TB2c |g|g coincidences with NaI detectors; ce singles.
157TB c 1966FuZZ: see 1966Fu06.
157TB c 1966Gn01: measured ce spectrum.
157TB c 1966Me06: lifetime measured from Kx - 326 |g coincidences.
157TB c 1967Bl12: report 23 |g's from singles with Ge detectors; deduced
157TB2c 20 multipolarities using others' ce data.
157TB c 1967Ha12: lifetime measured from Kx - 326 |g coincidences.
157TB c 1967Ko17: lifetime measured from Kx - 326 |g coincidences.
157TB c 1967Ma33: lifetimes from Auger electrons and ce coincidences.
157TB c 1970Ro21: measured {+157}Dy half-life.
157TB c 1972Af03: lifetimes measured.
157TB c 1975Gr44: summary of laboratory research.
157TB c 1997Ad08: with chemically and isotopically separated sources
157TB2c report 76 |g's from |g singles, ce singles with Si detector,
157TB2c and |g|g coincidences.
157TB c Model and theory discussions include Alaga rules for allowed |b
157TB2c decay (1970Fu02) and number fluctuations in calculations of
157TB3c first-forbidden |b decay (1975Fe13).
157TB cE TI The evaluator has set the direct feeding of the 326 level
157TB2cE to 96% {I4} based on the reported values of 94% {I2} (1963Pe20)
157TB3cE and 98% (1967Bl12). The remaining |e+|b{++} feedings follow
157TB4cE from the intensity balances.
157TB cE TI The |e+|b+ intensities are the same as the |e intensities,
157TB2cE since the smallest capture-to-positron ratio is 2.6|*10{+3} and
157TB3cE 96% transition to the 326 level is below the threshold for
157TB4cE |b{++} emission.
157TB cG The |g|g coincidence data shown in drawing are from
157TB2cG 1966Fu06, 1961To02, and 1997Ad08.
157TB cG 1997Ad08 report upper limits for the intensities of a
157TB2cG number of |g rays that have been reported depopulating J = 7/2
157TB3cG and 9/2 levels in (d,2n|g) (1971Wi24). These limits and the
157TB4cG associated levels are (the |g energies are from 1971Wi24): 68.3
157TB5cG keV, I{-|g} < 0.0012 from 425 keV level; 99.1, <0.0015 from
157TB6cG 425; 137.3, <0.0012 from 709; 156.2, <3.0 from 513; 186.3,
157TB7cG <0.0020 from 513; 191.6, <0.0023 from 252; 214, <0.0009 from
157TB8cG 571; 251.1, <0.0011 from 658; 282.1, <0.0009 from 425; 331.1,
157TB9cG <0.0037 from 658; 347.1, <0.0037 from 407; 351.5, <0.0037
157TB0cG from 709; 370.0, <0.0018 from 513; 408.0, <0.0025 from 407;
157TBAcG 453.0, <0.0020 from 513; and 650, <0.0011 from 793 level. Of
157TBBcG the levels in this list, those at 252, 658, and 793 are
157TBCcG reported by 1997Ad08 based on the placement of other |g rays.
157TBDcG For these three levels, the limits from 1997Ad08 are
157TBEcG consistent with the data from 1971Wi24.
157TB cG $|a(K)exp values in the table are calculated by evaluator from |g and K
157TB2cG x rays intensities measured by 1997Ad08 (with normalization constant,
157TB3cG 11.4~{I7}, deduced from 326|g)
157TB cG E,RI From 1997Ad08; other extensive lists are given by
157TB2cG 1967Bl12, 1966Fu06, and 1963Pe20.
157TB cG RI I(ann. rad.) < 0.003 (1966Fu06); other: from evaluator's
157TB2cG decay scheme < 0.0024.
157TB cG M From 1997Ad08 and based on |a{-K} from measured I{-|g} and
157TB2cG I{-K} values normalized to give |a{-K}=0.0114 for the 326 keV E1
157TB3cG |g, unless otherwise noted. Differing values are noted in
157TB4cG comments. Other assignments are given by 1967Bl12, 1966Fu06,
157TB5cG 1963Pe20, and a few by 1966Gn01, 1961To02, and 1957Mi67.
157TB cG MR From 1997Ad08, unless otherwise noted.
157TB cL E From least-squares fit to |g energies.
157TB cL J From {+157}Tb Adopted Levels.
157TB cL T Values are from measurements after decay of {+157}Dy only;
157TB2cL but these are the only measurements for the levels in {+157}Tb.
157TB3cL The methods used are X|g(t) with two plastic scintillators
157TB4cL (1966Me06) and two NaI(Tl) detectors (1967Ha12 and 1967Ko17)
157TB5cL Auger electrons-ce(t) with double lens magnetic spectrometer.
157TB cL BAND(A) 3/2[411] band.
157TB cL BAND(B) 5/2[532] band.
157TB cL BAND(E) 1/2[411] band mixed with |g-vibration based on 3/2[411]
157TB2cL ground state.
157TB cL BAND(J) K|p=3/2+ band, |b-vibration band based on 3/2[411]
157TB2cL ground state.
157TB DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
157TB cG MR$If no value given it was assumed |d=1.00 for E2/M1, |d=1.00 for
157TB2cG E3/M2 and |d=0.10 for the other multipolarities
157DY P 0.0 3/2- 8.14 H 4 1339 5
157TB N 0.93 3 0.93 3 1.0 1.0
157TB cN NR from the measure I(K x)/I|g(326) ratio, 1963Pe20 deduce
157TB2cN that the |e+|b{++} feeding to 326 level is 94% {I2}. 1967Bl12
157TB3cN report a value of 98.1% for this feeding. The evaluator has
157TB4cN assigned a value 96% {I3} which results in I|g
157TB5cN normalization=0.93 {I3}.
157TB PN 3
157TB G 243.78 4 0.0034 5
157TB G 530.82 9 0.00026 4
157TB G 548.91 8 0.00019 6
157TB G 720.02 13 0.00006 2
157TB G 734.81 6 0.00027 3
157TB G 793.7 0.00010 3
157TB G 839.70 5 0.00035 5M1 0.00752
157TBS G KC=0.00640 9$LC=0.000881 13$MC=0.000191 3
157TBS G NC=4.43E-5 7$OC=6.85E-6 10$PC=4.63E-7 7
157TB cG $|a(K)exp=0.0062~{I14} (1997Ad08)
157TB G 889.9 3 0.00004 1
157TB G 944.55 6 0.00014 4
157TB G 1147.78 16 0.00005 1
157TB G 1171.5 4 0.00004 1
157TB L 0.0 3/2+ A
157TB E 0.002 2 4 4 7.1 5 4 4
157TBS E EAV=157.0 23$CK=0.8328$CL=0.12892 3$CM+=0.03787 1
157TB L 60.881 3 5/2+ 0.49 NS 12 A
157TB cL T from 1972Af03; other: <0.42 ns (Muminov, thesis, Dubna, 1978
157TB2cL as cited in 1997Ad08.)
157TB E 0.27 7 8.20 12
157TBS E CK=0.8325$CL=0.12930 4$CM+=0.03800 1
157TB G 60.882 3 0.191 5 M1+E2 0.10 2 9.28 14 C
157TBS G KC=7.69 11$LC=1.25 5$MC=0.274 12
157TBS G NC=0.063 3$OC=0.0096 4$PC=0.000577 9
157TB cG MR From 1963Pe20. Other: 0.18 {I+5-8} (1967Bl12).
157TB cG $|a(K)exp=7.9~{I5} (1997Ad08)
157TB L 143.920 6 7/2+ A
157TB G 83.04 4 0.283 6 M1+E2 0.17 LT 3.77 C
157TBS G KC=3.14 5$LC=0.49 4$MC=0.108 8
157TBS G NC=0.0250 18$OC=0.00380 22$PC=0.000234 4
157TB cG $|a(K)exp=3.1~{I3} (1997Ad08)
157TB cG RI other: 0.67 {I20} (1967Bl12) and 0.50 {I10} (1963Pe20).
157TB cG MR From 1963Pe20. Other: |<0.14 (1967Bl12).
157TB G 143.922 10 0.067 6 E2 0.706 C
157TBS G KC=0.417 6$LC=0.223 4$MC=0.0524 8
157TBS G NC=0.01180 17$OC=0.001558 22$PC=2.20E-5 3
157TB cG $|a(K)exp=0.28~{I3} (1997Ad08)
157TB cG RI other: 0.39 {I7} from ce(K) and |a(K)(E2). Measured
157TB2cG I|g<0.08 (1967Bl12) and <0.09 (1963Pe20).
157TB L 252.58 7 9/2+
157TB G 108.65 18 0.0015 6
157TB L 326.346 6 5/2- 0.20 NS 4 B
157TB cL T The five reported values form two groups each of which is
157TB2cL internally consistent, but the groups are inconsistent. The
157TB3cL adopted value is from 1967Ma33; and the values that are
157TB4cL consistent with it are <0.25 ns (1966Me06) and |<0.23 (1972Af03).
157TB5cL The average of the other two values is 0.34 ns {I4} from 0.33
157TB6cL ns {I4} (1967Ko17) and 0.41 ns {I9} (1967Ha12). If the three
157TB7cL actual values are averaged, the result is 0.28 ns {I5} with a
157TB8cL reduced-|h{+2} value of 3.8. All values are from {+157}Dy |e
157TB9cL decay and measured by X-|g(t) with two plastic scintillators
157TB0cL (1966Me06) and with two NaI(Tl) detectors (1967Ha12 and 1967Ko17)
157TBAcL and Auger electron-ce(t) (1967Ma33) with double lens magnetic
157TBBcL spectrometer.
157TB E 96 3 5.442 15
157TBS E CK=0.8299$CL=0.13134 5$CM+=0.03871 2
157TB G 182.424 9 1.43 4 E1 0.0599 C
157TBS G KC=0.0506 7$LC=0.00730 11$MC=0.001588 23
157TBS G NC=0.000363 5$OC=5.39E-5 8$PC=3.04E-6 5
157TB cG $|a(K)exp=0.057~{I5} (1997Ad08)
157TB cG RI other: 2.0 {I2} (1963Pe20) and 2.4 {I+5-12} (1967Bl12).
157TB G 265.469 9 0.183 4 E1 0.0225 C
157TBS G KC=0.0191 3$LC=0.00269 4$MC=0.000585 9
157TBS G NC=0.0001340 19$OC=2.01E-5 3$PC=1.196E-6 17
157TB cG $|a(K)exp=0.040~{I4} (1997Ad08)
157TB G 326.336 10 100 E1 0.01344 C
157TBS G KC=0.01141 16$LC=0.001589 23$MC=0.000345 5
157TBS G NC=7.92E-5 11$OC=1.195E-5 17$PC=7.27E-7 11
157TB cG RI reference value given in 1997Ad08 as 10{+6},
157TB2cG but deduced by evaluator from
157TB3cG comparison with other sets of values to be 10{+5}.
157TB L 327.648 21 5/2+
157TB E 0.0239 12 9.045 23
157TBS E CK=0.8299$CL=0.13135 5$CM+=0.03871 2
157TB G 266.766 20 0.0225 8 M1 0.1423
157TBS G KC=0.1203 17$LC=0.01722 25$MC=0.00376 6
157TBS G NC=0.000869 13$OC=0.0001340 19$PC=8.89E-6 13
157TB L 357.663 8 7/2- B
157TB G 31.32 [E2] 391 0.013 AP
157TB2 G FL=326.346
157TBS G L/T=0.769 8$M/T=0.182 4
157TBS G N/T=0.0407 8$O/T=0.00511 10$P/T=1.79E-6 4
157TBS G LC=302 5$MC=71.5 10
157TBS G NC=15.94 23$OC=2.00 3$PC=0.000701 10
157TB cG E unobserved, but existence proposed by 1997Ad08
157TB cG TI value deduced by evaluator to produce intensity balance at
157TB2cG this level; a larger value would require |e feeding which is
157TB3cG not expected since it is a 2nd forbidden decay. 1997Ad08
157TB4cG indicate value is |< 0.0097; their argument is not given, but
157TB5cG is probably similar.
157TB G 296.784 11 0.0411 8 E1 0.01701 C
157TBS G KC=0.01443 21$LC=0.00202 3$MC=0.000439 7
157TBS G NC=0.0001006 14$OC=1.516E-5 22$PC=9.13E-7 13
157TB cG $|a(K)exp=0.0172~{I25} (1997Ad08)
157TB L 597.376 8 1/2+ E
157TB E 0.062 3 8.347 22
157TBS E CK=0.8250 2$CL=0.1350 1$CM+=0.03999 4
157TB G 597.376 8 0.0909 19M1+E2 0.72 +17-130.0147 9 C
157TBS G KC=0.0124 8$LC=0.00180 9$MC=0.000394 18
157TBS G NC=9.1E-5 4$OC=1.39E-5 7$PC=8.9E-7 6
157TB cG $|a(K)exp=0.0082~{I8} (1997Ad08)
157TB cG M from 1997Ad08; other: M1 from 1967Bl12.
157TB L 637.358 8 3/2+ E
157TB E 0.048 3 8.41 3
157TBS E CK=0.8239 2$CL=0.1358 1$CM+=0.04027 4
157TB G 493.44 2 0.00016 2[E2] 0.01506
157TBS G KC=0.01217 17$LC=0.00225 4$MC=0.000503 7
157TBS G NC=0.0001151 17$OC=1.683E-5 24$PC=8.13E-7 12
157TB G 576.475 9 0.0352 7 E2+M1 1.9 +7-5 0.0121 11 C
157TBS G KC=0.0100 10$LC=0.00161 11$MC=0.000356 22
157TBS G NC=8.2E-5 5$OC=1.23E-5 9$PC=7.0E-7 8
157TB cG $|a(K)exp=0.0112~{I11} (1997Ad08)
157TB cG M from 1997Ad08; other: M1 from 1967Bl12.
157TB G 637.36 3 0.0218 21M1 0.01486
157TBS G KC=0.01262 18$LC=0.001755 25$MC=0.000382 6
157TBS G NC=8.82E-5 13$OC=1.364E-5 20$PC=9.18E-7 13
157TB L 658.4 3 7/2+
157TB E 0.0012 5 9.98 19
157TBS E CK=0.8233 2$CL=0.1363 2$CM+=0.04043 4
157TB G 300.7 3 0.0013 5 [E1] 0.01646
157TBS G KC=0.01397 20$LC=0.00195 3$MC=0.000424 6
157TBS G NC=9.73E-5 14$OC=1.466E-5 21$PC=8.84E-7 13
157TB L 697.292 7 5/2+ E
157TB E 0.0076 23 9.12 14
157TBS E CK=0.8220 2$CL=0.1372 2$CM+=0.04076 5
157TB G 553.374 10 0.0157 3 E2+M1 10 +99-5 0.0113 4 C
157TBS G KC=0.0092 3$LC=0.00162 4$MC=0.000360 8
157TBS G NC=8.24E-5 18$OC=1.22E-5 3$PC=6.24E-7 22
157TB cG $|a(K)exp=0.0100~{I14} (1997Ad08)
157TB cG M from 1997Ad08; other: M1 from 1967Bl12.
157TB G 636.41 4 0.0159 22M1 0.01491 C
157TBS G KC=0.01267 18$LC=0.001761 25$MC=0.000383 6
157TBS G NC=8.86E-5 13$OC=1.370E-5 20$PC=9.21E-7 13
157TB cG $|a(K)exp=0.036~{I4} (1997Ad08)
157TB G 697.290 10 0.00308 9E2+M1 1.5 +99-120.0081 34 C
157TBS G KC=0.0068 30$LC=1.02E-3 34$MC=2.24E-4 71
157TBS G NC=5.2E-5 17$OC=7.8E-6 27$PC=4.8E-7 23
157TB cG $|a(K)exp=0.0074~{I23} (1997Ad08)
157TB L 793.52 20 7/2+
157TB E 0.000103 10.85 13
157TBS E CK=0.8180 3$CL=0.14023 19$CM+=0.04181 7
157TB G 540.94 18 0.00011 3
157TB L 883.324 22 (1/2)-
157TB E 0.0034 5 9.15 7
157TBS E CK=0.8124 4$CL=0.1443 3$CM+=0.04325 10
157TB G 245.96 4 0.0012 3 C
157TB G 285.96 5 0.0017 4
157TB G 883.32 3 0.00072 4E1 1.51E-3
157TBS G KC=0.001289 18$LC=0.0001706 24$MC=3.69E-5 6
157TBS G NC=8.49E-6 12$OC=1.305E-6 19$PC=8.60E-8 12
157TB cG $|a(K)exp=0.0011~{I5} (1997Ad08)
157TB L 895.058 20 (1/2+,3/2+,5/2+)
157TB G 895.06 3 0.0031011M1+E2 0.7 +6-3 0.0055 9 C
157TBS G KC=0.0047 8$LC=0.00066 9$MC=0.000143 19
157TBS G NC=3.3E-5 5$OC=5.1E-6 7$PC=3.4E-7 6
157TB cG $|a(K)exp=0.0046~{I4} (1997Ad08)
157TB L 922.70 8 (5/2-)
157TB E 0.000235 10.23 10
157TBS E CK=0.8091 5$CL=0.1468 4$CM+=0.04410 13
157TB G 861.78 9 0.00013 4
157TB G 922.78 15 0.00012 2
157TB L 925.304 25 (3/2,5/2)+
157TB G 287.7 2 0.0010 4 C
157TB G 781.37 6 0.00020 6
157TB G 864.42 4 0.00150 9E2+M1 1.6 +40-100.0048 14 C
157TBS G NC=3.0E-5 8$OC=4.5E-6 12$PC=2.85E-7 93
157TBS G KC=0.0041 12$LC=0.00059 15$MC=0.00013 4
157TB cG $|a(K)exp=0.0044~{I7} (1997Ad08)
157TB G 925.35 6 0.00110 5M1+E2 0.3 +5-3 0.0057 8 C
157TBS G KC=0.0049 7$LC=0.00067 9$MC=0.000146 18
157TBS G NC=3.4E-5 5$OC=5.2E-6 7$PC=3.5E-7 6
157TB cG $|a(K)exp=0.0049~{I6} (1997Ad08)
157TB cG M,MR$From |a(K)exp
157TB L 970.381 20 3/2-
157TB E 0.0120 8 8.40 4
157TBS E CK=0.8040 7$CL=0.1505 5$CM+=0.04543 17
157TB G 273.09 4 0.0036 7 C
157TB G 333.03 6 0.0007011 C
157TB G 373.01 4 0.0062623 C
157TB G 909.49 3 0.00226 9E1 1.42E-3
157TBS G KC=0.001219 17$LC=0.0001611 23$MC=3.48E-5 5
157TBS G NC=8.02E-6 12$OC=1.233E-6 18$PC=8.14E-8 12
157TB cG $|a(K)exp=0.0009~{I3} (1997Ad08)
157TB G 970.38 9 0.00012 2
157TB L 991.701 16 3/2+ J
157TB E 0.0136 5 8.282 22
157TBS E CK=0.8012 8$CL=0.1526 6$CM+=0.04617 19
157TB G 847.75 5 0.00236 8E2 0.00412
157TBS G KC=0.00345 5$LC=0.000525 8$MC=0.0001153 17
157TBS G NC=2.65E-5 4$OC=4.00E-6 6$PC=2.37E-7 4
157TB cG $|a(K)exp=0.0029~{I4} (1997Ad08)
157TB G 930.82 3 0.0085023E2 0.00337
157TBS G KC=0.00283 4$LC=0.000421 6$MC=9.23E-5 13
157TBS G NC=2.12E-5 3$OC=3.22E-6 5$PC=1.95E-7 3
157TB cG $|a(K)exp=0.0027~{I3} (1997Ad08)
157TB G 991.70 2 0.0034511 E0+(E2) 0.074 4
157TB cG MR %E0 |? 6 and %E2 |? 94 (1966Fu06, 1967Bl12).
157TB cG CC From |a(K)exp=0.062 {I3}, average of 0.039 {I15} (1966Fu06),
157TB2cG 0.072 {I+71-34} (1967Bl12), and 0.064 {I3} (1997Ad08),
157TB2cG and |a/|a(K)=1.19; theoretical |a(K)(E2)
157TB3cG is 0.00248 {I4}
157TB L 1044.352 19 5/2+ J
157TB E 0.0063625 8.446 25
157TBS E CK=0.7921 11$CL=0.1594 8$CM+=0.0486 3
157TB G 686.68 6 0.00036 4
157TB G 791.77 7 0.00070 5
157TB G 900.43 3 0.00174 8E2+M1 3 +29-2 0.0039 11
157TBS G KC=0.00327 95$LC=0.00048 12$MC=0.000106 25
157TBS G NC=2.4E-5 6$OC=3.7E-6 10$PC=2.27E-7 73
157TB cG $|a(K)exp=0.0036~{I5} (1997Ad08)
157TB G 983.50 6 0.00069 3 E0+(E2) 0.134 10
157TB cG MR %E0 > 7% and %E2 < 93% (1967Bl12).
157TB cG CC 0.134 {I10} from |a(K)exp=0.113 {I8} (1997Ad08) and
157TB2cG |a/|a(K)=1.19; theoretical value of |a(K)(E2) is 0.00252 {I4};
157TB2cG other value: >0.094 from |a(K)exp>0.079 (1967Bl12)
157TB G 1044.34 3 0.00324 9M1+E2 0.8 +15-8 0.0037 9
157TBS G KC=0.0032 7$LC=0.00044 9$MC=9.6E-5 19
157TBS G NC=2.2E-5 5$OC=3.4E-6 7$PC=2.3E-7 6
157TB cG $|a(K)exp=0.0032~{I7} (1997Ad08)
157TB cG M,MR$From |a(K)exp. Other: Assignment of E1 (1966Fu06) is inconsistent
157TB2cG with assigned J|p, but |a limit is close to E2 value.
157TB L 1096.497 18 (1/2-)
157TB E 0.0427 22 7.42 4
157TBS E CK=0.7779 18$CL=0.1698 13$CM+=0.0523 5
157TB G 171.20 4 0.0035 16 C
157TB G 201.44 4 0.0010221 C
157TB G 459.16 4 0.0025021 E1 0.00597 C
157TBS G KC=0.00508 8$LC=0.000695 10$MC=0.0001506 21
157TBS G NC=3.46E-5 5$OC=5.27E-6 8$PC=3.31E-7 5
157TB cG $|a(K)exp=0.0078~{I24} (1997Ad08)
157TB G 499.12 4 0.0108 3 E1 0.00494 C
157TBS G KC=0.00421 6$LC=0.000573 8$MC=0.0001241 18
157TBS G NC=2.86E-5 4$OC=4.35E-6 6$PC=2.76E-7 4
157TB cG $|a(K)exp=0.0046~{I6} (1997Ad08)
157TB cG RI other: 0.021 {I5} (1966Fu06) and |?0.011 (1967Bl12).
157TB G 770.12 3 0.0278 6 E2 0.00509 C
157TBS G KC=0.00425 6$LC=0.000664 10$MC=0.0001462 21
157TBS G NC=3.36E-5 5$OC=5.05E-6 7$PC=2.92E-7 4
157TB cG $|a(K)exp=0.0042~{I4} (1997Ad08)
157TB G 1096.55 7 0.00013 1
157TB L 1102.365 8 (3/2)-
157TB E 0.136 5 6.89 3
157TBS E CK=0.7759 19$CL=0.1713 14$CM+=0.0528 5
157TB G 207.31 3 0.0018 3 C
157TB G 405.08 2 0.0232 5 E1 0.00798 C
157TBS G KC=0.00679 10$LC=0.000935 13$MC=0.000203 3
157TBS G NC=4.66E-5 7$OC=7.06E-6 10$PC=4.39E-7 7
157TB cG $|a(K)exp=0.0065~{I6} (1997Ad08)
157TB G 464.93 17 0.00016 7
157TB G 504.99 2 0.0062316E1 0.00481 C
157TBS G KC=0.00410 6$LC=0.000558 8$MC=0.0001209 17
157TBS G NC=2.78E-5 4$OC=4.24E-6 6$PC=2.69E-7 4
157TB cG $|a(K)exp=0.0048~{I8} (1997Ad08)
157TB G 744.702 8 0.0520 12E2 0.00550 C
157TBS G KC=0.00457 7$LC=0.000722 11$MC=0.0001592 23
157TBS G NC=3.66E-5 6$OC=5.49E-6 8$PC=3.14E-7 5
157TB cG $|a(K)exp=0.0041~{I4} (1997Ad08)
157TB G 776.010 10 0.0570 12E2+M1 19 +99-160.0050 4 C
157TBS G KC=0.0042 4$LC=0.00065 5$MC=0.000144 9
157TBS G NC=3.30E-5 21$OC=5.0E-6 4$PC=2.9E-7 3
157TB cG $|a(K)exp=0.0044~{I4} (1997Ad08)
157TB G 1041.48 3 0.00290 8
157TB G 1102.36 6 0.00168 7E1 9.97E-4
157TBS G KC=0.000853 12$LC=0.0001118 16$MC=2.41E-5 4
157TBS G NC=5.56E-6 8$OC=8.56E-7 12$PC=5.71E-8 8$IPC=1.93E-6 3
157TB cG $|a(K)exp=0.0012~{I5} (1997Ad08)
157TB L 1160.719 17 (3/2,5/2)-
157TB E 0.0020414 8.40 5
157TBS E CK=0.744 5$CL=0.195 3$CM+=0.0611 11
157TB G 523.36 3 0.00039 6
157TB G 803.05 3 0.00075 6E2 0.00464
157TBS G KC=0.00387 6$LC=0.000599 9$MC=0.0001317 19
157TBS G NC=3.03E-5 5$OC=4.56E-6 7$PC=2.66E-7 4
157TB cG $|a(K)exp=0.0035~{I10} (1997Ad08)
157TB G 834.37 3 0.00052 4E2+M1 19 +99-160.0043 4
157TBS G KC=0.0036 3$LC=0.00055 4$MC=0.000120 8
157TBS G NC=2.76E-5 18$OC=4.2E-6 3$PC=2.46E-7 23
157TB cG $|a(K)exp=0.0037~{I8} (1997Ad08)
157TB G 1016.71 18 0.00014 4
157TB G 1099.89 6 0.00020 4
157TB G 1160.68 6 0.00019 7
157TB L 1275.51 3 3/2-,5/2-
157TB E 0.0066 3 6.42 14
157TBS E CK=0.18 11$CL=0.60 8$CM+=0.22 4
157TB G 949.20 4 0.00052 5
157TB cG $|a(K)exp=0.0009~{I3} (1997Ad08)
157TB cG M$E1 based on |a(K)exp is not supported by |D|p='no'
157TB G 1214.60 5 0.0022010
157TB cG $|a(K)exp=0.0016~{I6} (1997Ad08)
157TB cG M$E2 based on |a(K)exp is not compatible with |D|p='yes'
157TB G 1275.46 6 0.0043812E1 8.25E-4
157TBS G KC=0.000657 10$LC=8.57E-5 12$MC=1.85E-5 3
157TBS G NC=4.26E-6 6$OC=6.57E-7 10$PC=4.41E-8 7$IPC=5.86E-5 9
157TB cG $|a(K)exp=0.00060~{I24} (1997Ad08)
157TB cG M$Based on |a(K)exp
157TB L 1318.62 6
157TB E 0.000324 6.4 4
157TBS E CL=0.58 12$CM+=0.42 12
157TB G 1174.79 8 0.00013 4
157TB G 1257.65 13 0.00009 1
157TB G 1318.50 11 0.00012 1