153DY 153HO EC DECAY (2.01 M) 1982BA75 20NDS 202012
153DY H TYP=FUL$AUT=N. NICA$CIT=NDS 170, 1 (2020)$CUT=16-Aug-2020$
153DY c 1982Ba75 produced sources in 1-GeV proton spallation of target
153DY2c followed by mass separation with nuclide identification from
153DY3c E(K-x ray), T{-1/2} of I(K-x ray) along with T{-1/2} associated
153DY4c with each |g. 1981PaZP produced sources from Tb({+3}He,xn)
153DY5c reaction and measured |g and ce spectra.
153DY c Others: 1974Sc19, 1977ZuZV
153DY cE TI From intensity balances at each level and the assumption of
153DY2cE no |e+|b+ feeding of the ground state. This neglects the
153DY3cE influence of the unplaced |g's which would shift the |e+|b+
153DY4cE feeding to higher energy levels.
153DY cG E From 1982Ba75; others: 1981PaZP (especially below 700 keV)
153DY2cG and short lists in 1977ZuZV and 1974Sc19.
153DY cG RI From 1982Ba75; where these values are given as approximate,
153DY2cG the values of 1981PaZP are given in comments.
153DY cG M From {+153}Dy Adopted |g's, but primarily from 1977ZuZV
153DY2cG and 1981PaZP.
153DY cG E(A),RI(A)$Only reported by 1977ZuZV.
153DY cG E(B),RI(B)$Only reported by 1981PaZP.
153DY cL J From {+153}Dy Adopted Levels
153DY DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
153DY CG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1,
153DY2CG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
153HO P 0.0 11/2- 2.01 M 3 4131 6
153HO cP QP$Measured values: 4153 {I50} determined by 1983Al06 from
153HO2cP 3857 {I50} |b+ endpoint to the 296 level; 4160 {I60} by 1993Al03 from
153HO2cP total absorption |g spectrometer.
153DY N 0.670 21 0.99949 25 1.0005
153DY cN NR Calculated to give 100% feeding of the ground state with
153DY2cN the assumption of no |e+|b+ branching to the ground state
153DY3cN which neglects the influence of the unplaced |g's.
153DY PN 3
153DY G 66.2 7.2 A
153DY2 G %IG=4.83 16
153DY G 84.8 2.4 A
153DY2 G %IG=1.61 5
153DY G 186.9 2 0.43 B
153DY2 G %IG=0.288 9
153DY G 230.0 6 1 AP
153DY2 G %IG=0.7 4
153DY cG RI Other: 1.5 (1981PaZP).
153DY G 341.0 3 0.37 B
153DY2 G %IG=0.248 8
153DY G 420.4 2 0.7 2
153DY2 G %IG=0.47 14
153DY G 445.7 5 0.2 1
153DY2 G %IG=0.13 7
153DY G 449.7 4 0.3 1
153DY2 G %IG=0.20 7
153DY G 529.6 4 0.3 1
153DY2 G %IG=0.20 7
153DY G 617.5 3 0.5 2
153DY2 G %IG=0.34 14
153DY G 726.8 3 1.8 3
153DY2 G %IG=1.21 21
153DY G 742.8 5 0.5 2
153DY2 G %IG=0.34 14
153DY G 775.4 5 0.5 2
153DY2 G %IG=0.34 14
153DY G 784.8 4 1.0 2
153DY2 G %IG=0.67 14
153DY G 806.0 4 1.2 2
153DY2 G %IG=0.80 14
153DY G 836.1 4 0.8 2
153DY2 G %IG=0.54 14
153DY G 843.8 5 0.6 2
153DY2 G %IG=0.40 14
153DY G 847.5 3 1.1 2
153DY2 G %IG=0.74 14
153DY G 862.9 5 1.1 2
153DY2 G %IG=0.74 14
153DY G 885.1 5 0.5 1
153DY2 G %IG=0.34 7
153DY G 1151.2 5 1.3 2
153DY2 G %IG=0.87 14
153DY G 1183.1 5 0.8 2
153DY2 G %IG=0.54 14
153DY G 1202.4 6 0.5 2
153DY2 G %IG=0.34 14
153DY G 1208.4 5 0.9 2
153DY2 G %IG=0.60 14
153DY G 1300.8 8 0.4 2
153DY2 G %IG=0.27 14
153DY G 1347.8 6 1.0 2
153DY2 G %IG=0.67 14
153DY G 1389.0 8 0.2 1
153DY2 G %IG=0.13 7
153DY L 0.0 7/2(-)
153DY L 108.75 12(3/2-)
153DY G 108.7 2 3 APE2 1.99
153DY2 G %IG=2.0 10
153DYS G KC=0.907 14$LC=0.835 14$MC=0.200 4
153DYS G NC=0.0448 8$OC=0.00541 9$PC=3.79E-5 6
153DY cG RI Other: 5.1 (1981PaZP).
153DY L 270.46 14(3/2-,5/2-)
153DY E 0.84 3 0.90 3 6.31 2 1.74 6
153DYS E EAV=1284.0 28$CK=0.4319 14$CL=0.06463 20$CM+=0.01898 6
153DY G 161.5 2 1 APM1 0.615
153DY2 G %IG=0.7 4
153DYS G KC=0.518 8$LC=0.0757 11$MC=0.01662 24
153DYS G NC=0.00385 6$OC=0.000563 9$PC=3.22E-5 5
153DY cG RI Other: 2.7 (1981PaZP).
153DY G 270.6 2 1 APE2 0.0888
153DY2 G %IG=0.7 4
153DYS G KC=0.0651 10$LC=0.0184 3$MC=0.00425 6
153DYS G NC=0.000964 14$OC=0.0001255 18$PC=3.32E-6 5
153DY cG RI Other: 2.2 (1981PaZP).
153DY L 295.83 9 (9/2-)
153DY E 33.4 11 36.6 12 4.70 2 70.0 23
153DYS E EAV=1272.4 28$CK=0.4375 14$CL=0.06549 21$CM+=0.01923 6
153DY G 295.8 1 100 M1 0.1172
153DY2 G %IG=67.0 21
153DYS G KC=0.0990 14$LC=0.01427 20$MC=0.00313 5
153DYS G NC=0.000724 11$OC=0.0001061 15$PC=6.11E-6 9
153DY L 365.85 17 (5/2-,7/2-,9/2-)
153DY E 0.6 3 0.7 3 6.39 20 1.3 6
153DYS E EAV=1240.3 28$CK=0.4533 14$CL=0.06788 21$CM+=0.01993 7
153DY G 95.2 3 0.1 AP
153DY2 G %IG=0.07 4
153DY cG RI Other: 0.09 (1981PaZP).
153DY G 365.9 2 3.0 8M1 0.0667
153DY2 G %IG=2.0 6
153DYS G KC=0.0564 8$LC=0.00807 12$MC=0.001769 25
153DYS G NC=0.000409 6$OC=6.00E-5 9$PC=3.47E-6 5
153DY cG RI Other: 6.1 (1981PaZP).
153DY L 565.57 15 (3/2-,5/2-)
153DY G 456.8 2 1 APM1+E2 0.0284 92
153DY2 G %IG=0.7 4
153DYS G KC=0.0235 82$LC=0.0038 8$MC=0.00084 16
153DYS G NC=0.00019 4$OC=2.7E-5 6$PC=1.40E-6 55
153DY cG RI Other: 1.6 (1981PaZP).
153DY G 565.5 2 0.6 2E2 0.01107
153DY2 G %IG=0.40 14
153DYS G KC=0.00901 13$LC=0.001606 23$MC=0.000360 5
153DYS G NC=8.24E-5 12$OC=1.148E-5 17$PC=5.10E-7 8
153DY L 576.74 14 (3/2-,5/2,7/2-)
153DY G 468.2 2 1.4 2
153DY2 G %IG=0.94 14
153DY G 577.0 3 1.6 3
153DY2 G %IG=1.07 21
153DY L 637.12 13 11/2(-)
153DY E 0.92 11 1.5 2 6.00 6 2.4 3
153DYS E EAV=1116.7 28$CK=0.5173 15$CL=0.07761 23$CM+=0.02280 7
153DY G 637.0 2 8.0 3E2 0.00828
153DY2 G %IG=5.4 3
153DYS G KC=0.00680 10$LC=0.001155 17$MC=0.000257 4
153DYS G NC=5.91E-5 9$OC=8.30E-6 12$PC=3.87E-7 6
153DY L 688.34 14 (5/2-,7/2-)
153DY E 1.2 2 2.1 4 5.84 8 3.3 6
153DYS E EAV=1093.4 28$CK=0.5298 15$CL=0.07951 23$CM+=0.02336 7
153DY G 392.5 4 0.5 2
153DY2 G %IG=0.34 14
153DY G 579.7 3 1.2 5
153DY2 G %IG=0.8 4
153DY G 688.5 2 5.5 4
153DY2 G %IG=3.7 3
153DY L 712.44 17 (13/2+)
153DY E 0.36 14 0.6 3 6.35 18 1.0 4
153DYS E EAV=1082.5 28$CK=0.5357 15$CL=0.08041 23$CM+=0.02363 7
153DY G 75.3 2 1.3 3(E1) 0.655 11
153DY2 G %IG=0.87 20
153DYS G KC=0.542 9$LC=0.0884 14$MC=0.0194 3
153DYS G NC=0.00439 7$OC=0.000587 10$PC=2.40E-5 4
153DY G 712.0 5 0.3 1
153DY2 G %IG=0.20 7
153DY L 830.12 15
153DY cL E In the Adopted Levels, levels are placed at 829.93, with
153DY2cL depopulating |g's of 117 and 192 keV, and 830.4, with
153DY3cL depopulating |g's of 141, 253, and 721 keV.
153DY cL J The Adopted Levels are at 829.93 with J|p=(13/2+) and
153DY2cL 830.47 with J|p=(7/2-).
153DY E 0.59 10 1.2 2 6.04 8 1.8 3
153DYS E EAV=1029.1 28$CK=0.5647 15$CL=0.08485 23$CM+=0.02493 7
153DY G 117.3 3 0.4 2
153DY2 G %IG=0.27 14
153DY G 141.8 3 1.0 3
153DY2 G %IG=0.67 20
153DY G 192.8 2 0.6 2
153DY2 G %IG=0.40 14
153DY G 253.8 2 0.5 1 &
153DY2 G %IG=0.34 7
153DY G 721.0 5 0.2 1
153DY2 G %IG=0.13 7
153DY L 837.33 18 (13/2-)
153DY E 0.31 5 0.64 11 6.32 8 0.95 16
153DYS E EAV=1025.9 28$CK=0.5665 15$CL=0.08512 23$CM+=0.02501 7
153DY G 125.1 3 0.2 1
153DY2 G %IG=0.13 7
153DY G 541.4 2 1.4 2(E2) 0.01235
153DY2 G %IG=0.94 14
153DYS G KC=0.01002 14$LC=0.00182 3$MC=0.000408 6
153DYS G NC=9.35E-5 14$OC=1.298E-5 19$PC=5.65E-7 8
153DY L 1041.13 21 (11/2+)
153DY E 0.18 5 0.49 14 6.37 13 0.67 19
153DYS E EAV=933.8 27$CK=0.6166 15$CL=0.09282 23$CM+=0.02728 7
153DY G 203.8 4 0.2 AP
153DY2 G %IG=0.13 7
153DY G 404.1 3 0.4 2 &
153DY2 G %IG=0.27 14
153DY G 745.2 3 0.4 2 &
153DY2 G %IG=0.27 14
153DY L 1068.13 22 (11/2-)
153DY E 0.03 4 0.10 11 7.1 5 0.13 15
153DYS E EAV=921.7 27$CK=0.6231 15$CL=0.09383 23$CM+=0.02758 7
153DY G 431.0 5 0.1 AP
153DY2 G %IG=0.07 4
153DY G 772.2 3 0.6 2
153DY2 G %IG=0.40 14
153DY L 1092.3 3 (9/2,11/2-)
153DY E 0.20 5 0.60 15 6.27 11 0.80 20
153DYS E EAV=910.8 27$CK=0.6289 15$CL=0.09473 23$CM+=0.02785 7
153DY G 404.1 3 0.4 2 &
153DY2 G %IG=0.27 14
153DY G 1091.8 5 0.8 2
153DY2 G %IG=0.54 14
153DY L 1189.5 4 (7/2-,9/2,11/2-)
153DY E 0.16 4 0.58 12 6.26 10 0.74 16
153DYS E EAV=867.1 27$CK=0.6521 15$CL=0.09830 22$CM+=0.02890 7
153DY G 552.0 5 0.4 2
153DY2 G %IG=0.27 14
153DY G 893.9 5 0.3 1 &
153DY2 G %IG=0.20 7
153DY G 1189.9 8 0.4 AP
153DY2 G %IG=0.27 14
153DY L 1276.4 3 (9/2-)
153DY E 1.1 1 4.3 3 5.36 4 5.4 4
153DYS E EAV=828.1 27$CK=0.6721 14$CL=0.10142 22$CM+=0.02982 7
153DY G 910.4 4 1.4 2
153DY2 G %IG=0.94 14
153DY G 1167.6 5 1.6 2
153DY2 G %IG=1.07 14
153DY G 1276.5 4 5.0 4
153DY2 G %IG=3.4 3
153DY L 1321.97 22 (13/2-)
153DY E 0.15 3 0.65 13 6.17 9 0.80 16
153DYS E EAV=807.7 27$CK=0.6823 14$CL=0.10302 21$CM+=0.03029 7
153DY G 253.8 2 0.5 1 &
153DY2 G %IG=0.34 7
153DY G 685.2 5 0.3 AP
153DY2 G %IG=0.20 10
153DY G 745.2 3 0.4 2 &
153DY2 G %IG=0.27 14
153DY L 1381.3 3 (5/2-,7/2,9/2-)
153DY E 0.74 7 3.7 3 5.40 4 4.4 4
153DYS E EAV=781.2 27$CK=0.6953 13$CL=0.10505 21$CM+=0.03090 6
153DY G 693.0 5 0.3 1
153DY2 G %IG=0.20 7
153DY G 815.5 5 0.6 2
153DY2 G %IG=0.40 14
153DY G 1085.8 4 3.8 3
153DY2 G %IG=2.55 22
153DY G 1381.0 6 1.9 3
153DY2 G %IG=1.27 21
153DY L 1500.8 3 (9/2-)
153DY E 0.25 4 1.5 3 5.73 8 1.8 3
153DYS E EAV=727.8 27$CK=0.7201 12$CL=0.10896 19$CM+=0.03205 6
153DY G 812.1 5 0.3 1
153DY2 G %IG=0.20 7
153DY G 864.0 5 0.6 2
153DY2 G %IG=0.40 14
153DY G 924.0 4 1.8 3
153DY2 G %IG=1.21 21
153DY L 1581.16 23 (9/2+,11/2-)
153DY E 0.21 3 1.53 19 5.71 6 1.74 22
153DYS E EAV=692.1 27$CK=0.7355 12$CL=0.11142 18$CM+=0.03278 6
153DY G 868.6 5 0.4 1
153DY2 G %IG=0.27 7
153DY G 893.9 5 0.3 1 &
153DY2 G %IG=0.20 7
153DY G 1004.1 4 0.4 2
153DY2 G %IG=0.27 14
153DY G 1015.4 4 1.4 2
153DY2 G %IG=0.94 14
153DY G 1284.8 8 0.1 AP
153DY2 G %IG=0.07 4