147GD 147TB EC DECAY (1.64 H) 1997WA04 22NDS 202203
147GD H TYP=FUL$AUT=N. Nica and B. Singh$CIT=NDS 181, 1 (2022)$CUT=9-Mar-2022$
147GD c 1997Wa04: source obtained by spallation of Ta with 660 MeV protons
147GD2c at JINR Dubna, followed by radiochemistry and mass separation
147GD2c at YASNAPP. Used two Ge(Li), HPGe, Si(Li) (with micro-orange
147GD2c magnetic filter). Measured E|g, I|g, I(ce), |g|g (time coin window of
147GD2c 50 ns); also measured Q(g.s.) by |b-decay energy using positron
147GD2c spectrum end-point energy and total |g-ray absorption methods
147GD c Others: 2004Iz02, 2003Iz01, 2000Iz01, 1998Iz01, 1996GoZZ (ce),
147GD2c 1995AdZZ (Gamow-Teller resonance,
147GD2c strength function, total absorption spectrometer), 1993SaZY (|g, |g|g),
147GD2c 1991Ke11 (|g, E|b, Q(|e)), 1991MeZX (E|g, I|g, |g|g), 1983Pr04 (|g(|q),
147GD2c T{-1/2}), 1974Bu24 (|g|g(|q), ce|g(t)), 1974Ne01 (E|g, I|g, |g|g),
147GD2c 1972VyZZ (E|g, I|g, I(ce)), 1971Af03 (E|g, I|g, T{-1/2}, I(ce)),
147GD2c 1969Ch32 (E|g, I|g, T{-1/2})
147GD c 2004Iz02 note that their TAGS (total absorption |g-ray spectrometer)
147GD2c measurement is in good agreement with
147GD2c the data of 1997Wa04 indicating that the decay scheme of 1997Wa04
147GD2c is fairly complete. They also indicate Gamow-Teller resonance at
147GD2c |?4 MeV
147GD c Level scheme is from 1997Wa04
147GD DG CC$FROM BrIcc v2.3b (16-Dec-2014) 2008Ki07, "Frozen Orbitals" appr.
147TB P 0.0 (1/2+) 1.64 H 3 4614 8
147TB cP QP$From 2021Wa16
147GD N 0.913 21 1.0 1.0
147GD cN NR$calculated from |g feeding to g.s. (1997Wa04) based on the
147GD2cN assumptions that there is no (|e+|b{++}) feeding to g.s., and that the
147GD2cN |g decay to g.s. was measured completely (detection threshold is 0.06%
147GD2cN of most intense 1153|g); the total |g intensity to g.s. (relative to
147GD2cN 1153|g) quoted by 1997Wa04 is 111% {i3} (109.7% {i27} from placed
147GD2cN |g's, plus less than half of the unplaced |g intensity, or <1.7%
147GD2cN (evaluator)), whence the I|g normalization adopted here
147GD PN 3
147GD cL E$No uncertainties are available for the E{-|g} input. The E(level)
147GD2cL values are from a least-squares fit to the E{-|g} data with the
147GD2cL assumption that the uncertainties are the same for all the E{-|g}'s
147GD cL J$From 1997Wa04 (see Adopted Levels dataset for adopted J|p values)
147GD cL T(D)$From ce|g(t) (1974Bu24)
147GD cG $Unplaced |g's from 1997Wa04
147GD cG E$From 1997Wa04
147GD cG RI$Relative to 1153|g
147GD G 1262.8 2 0.17 3
147GD2 G %IG=0.155 28$
147GD G 1368.7 2 0.14 2 C
147GD2 G %IG=0.128 18$
147GD G 1912.6 4 0.06 4 C
147GD2 G %IG=0.05 4$
147GD G 1916.3 3 0.20 3
147GD2 G %IG=0.183 28$
147GD G 2021.5 3 0.10 3
147GD2 G %IG=0.091 27$
147GD G 2038.4 2 0.18 3
147GD2 G %IG=0.164 28$
147GD G 2258.3 2 0.09 3
147GD2 G %IG=0.082 27$
147GD G 2329.0 1 0.12 6 @C
147GD2 G %IG=0.11 5$
147GD G 2481.6 1 0.26 3
147GD2 G %IG=0.237 28$
147GD G 2486.5 3 0.29 3
147GD2 G %IG=0.265 28$
147GD G 2643.0 2 0.25 3
147GD2 G %IG=0.228 28$
147GD G 2702.1 3 0.12 2
147GD2 G %IG=0.110 18$
147GD G 2716.5 3 0.13 2
147GD2 G %IG=0.119 18$
147GD G 2865.6 3 0.08 2
147GD2 G %IG=0.073 18$
147GD G 2896.6 4 0.14 3
147GD2 G %IG=0.128 28$
147GD G 2961.5 2 0.06 2
147GD2 G %IG=0.055 18$
147GD G 2991.8 1 0.41 3 C
147GD2 G %IG=0.374 29$
147GD G 3068.3 2 0.10 2
147GD2 G %IG=0.091 18$
147GD G 3082.6 3 0.12 2 C
147GD2 G %IG=0.110 18$
147GD G 3169.0 4 0.16 3
147GD2 G %IG=0.146 28$
147GD G 3192.6 4 0.06 2
147GD2 G %IG=0.055 18$
147GD G 3267.5 3 0.06 1
147GD2 G %IG=0.055 9$
147GD G 3304.7 3 0.022 8
147GD2 G %IG=0.020 7$
147GD G 3317.9 2 0.09 1
147GD2 G %IG=0.082 9$
147GD L 0.0 7/2- 38.06 H 12
147GD2 L %EC+%B+=100
147GD cL T,%EC+%B+$adopted values
147GD L 1152.6 3/2- 0.2 NS LE D
147GD E 3 1 4 2 7.18 19 7 3
147GDS E EAV=1101.7 37$CK=0.4945 21$CL=0.0730 3$CM+=0.02111 9
147GD G 1152.53 3 100.0 25E2 0.00206 C
147GD2 G %IG=91.30 24$
147GDS G KC=0.001743 25$LC=0.000246 4$MC=5.33E-5 8
147GDS G NC=1.223E-5 18$OC=1.88E-6 3$PC=1.208E-7 17$IPC=1.781E-6 25
147GD cG M$from |a(L)exp=0.00024 {i5} (1997Wa04)
147GD L 1292.5 1/2+ 0.2 NS LE D
147GD E 3.1 4 5.3 8 7.03 7 8.4 12
147GDS E EAV=1038.1 37$CK=0.5305 21$CL=0.0784 4$CM+=0.02268 9
147GD G 139.89 3 34.1 9 E1 0.1181 C
147GD2 G %IG=31.1 11$
147GDS G KC=0.0996 14$LC=0.01450 21$MC=0.00314 5
147GDS G NC=0.000712 10$OC=0.0001058 15$PC=5.83E-6 9
147GD cG M$from |a(K)exp=0.099 {i4} and |a(L)exp=0.015 {i1} (1997Wa04)
147GD DG MR$0.000(+18) or 0.0(11) (BrIccMixing)
147GD G 1292.51 7 1.25 5 E3 0.00327 C
147GD2 G %IG=1.14 5$
147GDS G KC=0.00272 4$LC=0.000424 6$MC=9.28E-5 13
147GDS G NC=2.13E-5 3$OC=3.25E-6 5$PC=1.97E-7 3$IPC=5.92E-6 9
147GD cG M$from |a(K)exp=0.0028 {i3} (1997Wa04)
147GD L 1412.2 3/2+ 0.35 NS LE D
147GD E 2.4 2 5.0 5 7.03 5 7.4 7
147GDS E EAV=983.8 37$CK=0.5618 21$CL=0.0831 4$CM+=0.02404 10
147GD G 119.73 3 7.5 2 M1+E2 0.38 +7-8 1.26 6 C
147GD2 G %IG=6.85 24$
147GDS G KC=0.86 16$LC=0.31 16$MC=0.070 39
147GDS G NC=0.0158 85$OC=0.0022 11$PC=5.6E-5 20
147GD cG M$from |a(K)exp=1.01 {i6} and |a(L)exp=0.18 {i1} (1997Wa04); also K/L
147GD2cG ratio 3.0 {i11} (1971Af03)
147GD G 259.6 1 0.4 LT C
147GD2 G %IG<0.365$
147GD L 1627.9 5/2+
147GD E 0.52 3 1.44 10 7.50 3 1.96 13
147GDS E EAV=886.5 36$CK=0.6183 21$CL=0.0916 4$CM+=0.02652 10
147GD G 1627.91 6 3.14 12E1 7.81E-4
147GD2 G %IG=2.87 13$
147GDS G KC=0.000414 6$LC=5.31E-5 8$MC=1.138E-5 16
147GDS G NC=2.61E-6 4$OC=4.07E-7 6$PC=2.80E-8 4$IPC=0.000300 5
147GD cG M$from |a(K)exp=0.00037 {i4} (1997Wa04)
147GD L 1699.5 3/2+
147GD E 0.75 4 2.37 11 7.265 23 3.12 15
147GDS E EAV=854.2 36$CK=0.6367 21$CL=0.0944 3$CM+=0.02733 9
147GD G 287.4 1 0.19 6 C
147GD2 G %IG=0.17 5$
147GD G 407.06 3 1.95 7 M1 0.0429 C
147GD2 G %IG=1.78 8$
147GDS G KC=0.0364 5$LC=0.00509 8$MC=0.001102 16
147GDS G NC=0.000254 4$OC=3.95E-5 6$PC=2.67E-6 4
147GD cG M$from |a(K)exp=0.035 {i4} (1997Wa04)
147GD G 546.96 3 2.19 6 E1 0.00386 C
147GD2 G %IG=2.00 7$
147GDS G KC=0.00330 5$LC=0.000443 7$MC=9.53E-5 14
147GDS G NC=2.18E-5 3$OC=3.36E-6 5$PC=2.18E-7 3
147GD cG M$from |a(K)exp=0.0026 {i13} (1997Wa04)
147GD L 1759.9 1/2+
147GD E 0.39 3 1.34 9 7.49 4 1.73 12
147GDS E EAV=827.1 36$CK=0.6519 20$CL=0.0967 3$CM+=0.02800 9
147GD G 347.65 3 2.63 6 M1 0.0647 C
147GD2 G %IG=2.40 8$
147GDS G KC=0.0549 8$LC=0.00771 11$MC=0.001672 24
147GDS G NC=0.000385 6$OC=5.98E-5 9$PC=4.04E-6 6
147GD cG M$from |a(K)exp=0.053 {i4} (1997Wa04)
147GD G 467.4 1 0.14 7 C
147GD2 G %IG=0.13 6$
147GD L 1847.1 1/2-
147GD E 8.5 3 34.6 11 6.055 16 43.1 13
147GDS E EAV=788.0 36$CK=0.6734 20$CL=0.1000 3$CM+=0.02896 9
147GD G 434.96 4 0.68 5 C
147GD2 G %IG=0.62 5$
147GD G 554.65 3 5.75 13E1 0.00374 C
147GD2 G %IG=5.25 17$
147GDS G KC=0.00320 5$LC=0.000429 6$MC=9.24E-5 13
147GDS G NC=2.12E-5 3$OC=3.26E-6 5$PC=2.11E-7 3
147GD cG M$from |a(K)exp=0.0024 {i9} (1997Wa04)
147GD G 694.54 3 41.4 9 M1 0.01110 C
147GD2 G %IG=37.8 12$
147GDS G KC=0.00944 14$LC=0.001296 19$MC=0.000280 4
147GDS G NC=6.45E-5 9$OC=1.005E-5 14$PC=6.87E-7 10
147GD cG M$from |a(K)exp=0.0102 {i5} and |a(L)exp=0.0014 {i2} (1997Wa04)
147GD DG MR$0.00(+19) or 0.00(11) (BrIccMixing)
147GD L 1947.6 5/2-
147GD E 0.306 14 1.50 7 7.384 22 1.81 8
147GDS E EAV=743.1 36$CK=0.6970 19$CL=0.1037 3$CM+=0.03002 9
147GD G 1947.58 6 2.19 6 M1 1.27E-3 C
147GD2 G %IG=2.00 7$
147GDS G KC=0.000831 12$LC=0.0001104 16$MC=2.38E-5 4
147GDS G NC=5.47E-6 8$OC=8.55E-7 12$PC=5.94E-8 9$IPC=0.000300 5
147GD cG M$from |a(K)exp=0.0019 {i3} (1997Wa04)
147GD L 2233.2 (5/2)-
147GD E 0.065 4 0.59 4 7.69 3 0.66 4
147GDS E EAV=616.0 36$CK=0.7558 15$CL=0.11282 23$CM+=0.03269 7
147GD G 1080.5 3 0.06 4 ?
147GD2 G %IG=0.05 4$
147GD G 2233.17 4 0.72 3
147GD2 G %IG=0.657 31$
147GD L 2329.0 (5/2,7/2)
147GD E 0.032 6 0.38 6 7.85 8 0.41 7
147GDS E EAV=573.5 36$CK=0.7721 13$CL=0.11543 21$CM+=0.03345 6
147GD G 2329.0 1 0.45 7 @
147GD2 G %IG=0.41 6$
147GD L 2438.0 (3/2,5/2)-
147GD E 0.098 5 1.54 7 7.193 21 1.64 7
147GDS E EAV=525.5 36$CK=0.7882 11$CL=0.11806 18$CM+=0.03423 6
147GD G 1025.8 1 0.38 3 C
147GD2 G %IG=0.347 29$
147GD G 1285.45 7 0.36 2 M1,(E3) C
147GD2 G %IG=0.329 20$
147GD cG M$from |a(K)exp=0.0028 {i8} (1997Wa04)
147GD G 2438.02 6 1.06 4
147GD2 G %IG=0.97 4$
147GD L 2611.7 (1/2,3/2)+
147GD cL J$1997Wa04 assign |p=- but M1 |g to 1/2+, 1292 level
147GD E 0.033 2 0.92 6 7.35 3 0.95 6
147GDS E EAV=449.0 36$CK=0.8084 8$CL=0.12151 14$CM+=0.03524 5
147GD G 1199.53 6 0.66 3 C
147GD2 G %IG=0.603 31$
147GD G 1319.2 1 0.38 5 M1 0.00240 C
147GD2 G %IG=0.35 5$
147GDS G KC=0.00203 3$LC=0.000272 4$MC=5.87E-5 9
147GDS G NC=1.353E-5 19$OC=2.11E-6 3$PC=1.458E-7 21$IPC=2.64E-5 4
147GD cG M$from |a(K)exp=0.0025 {i5} (1997Wa04) for this |g and 1319.8|g (from
147GD2cG 2947 level)
147GD L 2736.4 5/2-
147GD E 0.0094 11 0.42 5 7.63 6 0.43 5
147GDS E EAV=394.3 36$CK=0.8190 6$CL=0.1234 2$CM+=0.03582 4
147GD G 1324.3 2 0.18 3 E1 7.69E-4 &C
147GD2 G %IG=0.164 28$
147GDS G KC=0.000587 9$LC=7.59E-5 11$MC=1.627E-5 23
147GDS G NC=3.74E-6 6$OC=5.81E-7 9$PC=3.96E-8 6$IPC=8.56E-5 12
147GD cG M$from |a(K)exp=0.0010 {i8} (1997Wa04) for this |g and 1324.3|g (from
147GD2cG 3172 level)
147GD G 1583.7 2 0.29 4 (M1) 1.67E-3 C
147GD2 G %IG=0.26 4$
147GDS G KC=0.001329 19$LC=0.0001777 25$MC=3.83E-5 6
147GDS G NC=8.81E-6 13$OC=1.376E-6 20$PC=9.53E-8 14$IPC=0.0001179 17
147GD cG M$from |a(K)exp=0.0012 {i2} (1997Wa04) for this |g and 1585.6|g (from
147GD2cG 2947 level)
147GD L 2808.3
147GD E 0.0077 7 0.47 4 7.54 4 0.48 4
147GDS E EAV=362.7 35$CK=0.8236 5$CL=0.1244 1$CM+=0.03610 3
147GD G 1396.4 4 0.32 3 (M1) 0.00213 C
147GD2 G %IG=0.292 28$
147GDS G KC=0.001776 25$LC=0.000238 4$MC=5.14E-5 8
147GDS G NC=1.183E-5 17$OC=1.85E-6 3$PC=1.276E-7 18$IPC=4.75E-5 7
147GD cG M$from |a(K)exp=0.0019 {i4} (1997Wa04); tentative because this |g is
147GD2cG from complex line (1997Wa04)
147GD G 1655.7 2 0.21 2 C
147GD2 G %IG=0.192 19$
147GD L 2862.2 5/2+
147GD cL J$1997Wa04 assign |p=- but E1 |g to 3/2-, 1152 level
147GD E 0.0064 9 0.51 7 7.48 6 0.52 7
147GDS E EAV=339.1 35$CK=0.8264 4$CL=0.12498 9$CM+=0.03628 3
147GD G 1709.6 1 0.57 7 E1 8.04E-4 @C
147GD2 G %IG=0.52 7$
147GDS G KC=0.000382 6$LC=4.89E-5 7$MC=1.048E-5 15
147GDS G NC=2.41E-6 4$OC=3.75E-7 6$PC=2.58E-8 4$IPC=0.000361 5
147GD cG E$from Table 1 (Gamma transitions in {+147}Gd, 1997Wa04); it
147GD2cG differs from 1709.5 (Fig. 5a, 1997Wa04), probably a misprint
147GD cG M$from |a(K)exp=0.00040 {i12} (1997Wa04) for this |g, 1709.6|g (from
147GD2cG 3122 level), and 1707.1|g (from 3119 level)
147GD L 2871.7
147GD E 0.0042 5 0.36 4 7.63 5 0.36 4
147GDS E EAV=334.9 35$CK=0.8269 4$CL=0.12508 9$CM+=0.03632 3
147GD G 1243.5 4 0.20 3 &C
147GD2 G %IG=0.183 28$
147GD G 1579.2 1 0.19 3 C
147GD2 G %IG=0.173 28$
147GD cG E$from Table 1 (Gamma transitions in {+147}Gd, 1997Wa04); it
147GD2cG differs from 1579.3 (Fig. 5a, 1997Wa04), probably a misprint
147GD G 1718.5 3 0.17 3 ? ?
147GD2 G %IG=0.155 28$
147GD cG E$from Table 1 (Gamma transitions in {+147}Gd, 1997Wa04); it
147GD2cG differs from 1718.7 (Fig. 5a, 1997Wa04), probably a misprint
147GD L 2878.0 (1/2,3/2)+
147GD E 0.0173 12 1.50 8 7.004 25 1.52 8
147GDS E EAV=332.2 35$CK=0.8271 4$CL=0.12515 9$CM+=0.03634 3
147GD G 1117.8 3 0.43 4 C
147GD2 G %IG=0.39 4$
147GD G 1178.6 3 0.11 2 C
147GD2 G %IG=0.100 18$
147GD G 1465.75 7 0.82 4 M1 0.00193 C
147GD2 G %IG=0.75 4$
147GDS G KC=0.001588 23$LC=0.000213 3$MC=4.59E-5 7
147GDS G NC=1.056E-5 15$OC=1.647E-6 23$PC=1.140E-7 16$IPC=7.09E-5 10
147GD cG M$from |a(K)exp=0.0017 {i2} (1997Wa04)
147GD G 1585.6 1 0.30 4 (M1) 1.67E-3 C
147GD2 G %IG=0.27 4$
147GDS G KC=0.001326 19$LC=0.0001772 25$MC=3.82E-5 6
147GDS G NC=8.79E-6 13$OC=1.372E-6 20$PC=9.50E-8 14$IPC=0.0001188 17
147GD cG M$from |a(K)exp=0.0012 {i2} (1997Wa04) for this |g and 1583.7|g (from
147GD2cG 2736 level)
147GD L 2947.4 (3/2,5/2)+
147GD E 0.0034 4 0.44 4 7.50 4 0.44 4
147GDS E EAV=301.7 36$CK=0.8299 3$CL=0.12582 8$CM+=0.03654 3
147GD G 1319.8 3 0.14 3 (M1) 0.00240 C
147GD2 G %IG=0.128 28$
147GDS G KC=0.00203 3$LC=0.000272 4$MC=5.87E-5 9
147GDS G NC=1.351E-5 19$OC=2.11E-6 3$PC=1.456E-7 21$IPC=2.65E-5 4
147GD cG M$from |a(K)exp=0.0025 {i5} (1997Wa04) for this |g and 1319.2|g (from
147GD2cG 2612 level)
147GD G 1535.2 1 0.34 2 M1,E2 0.0015 3 C
147GD2 G %IG=0.310 20$
147GDS G KC=0.00121 22$LC=0.00016 3$MC=3.5E-5 6
147GDS G NC=8.1E-6 14$OC=1.26E-6 22$PC=8.6E-8 17$IPC=9.2E-5 6
147GD cG M$from |a(K)exp=0.0012 {i3} (1997Wa04)
147GD L 3119.0 (3/2,5/2)
147GD E 0.000585 0.246 11 7.655 22 0.247 11
147GDS E EAV=226.3 38$CK=0.8336 1$CL=0.12714 6$CM+=0.03696 2
147GD G 1707.1 2 0.30 4 E1 8.03E-4 ? ?
147GD2 G %IG=0.27 4$
147GDS G KC=0.000382 6$LC=4.90E-5 7$MC=1.050E-5 15
147GDS G NC=2.41E-6 4$OC=3.76E-7 6$PC=2.58E-8 4$IPC=0.000359 5
147GD cG M$from |a(K)exp=0.00040 {i12} (1997Wa04) for this |g, 1709.6|g (from
147GD2cG 2862 level), and 1709.6|g (from 3122 level)
147GD G 3119.0 2 0.27 1
147GD2 G %IG=0.247 11$
147GD L 3121.7
147GD E 0.0005014 0.22 6 7.70 12 0.22 6
147GDS E EAV=224.9 38$CK=0.83360 9$CL=0.12716 6$CM+=0.03696 2
147GD G 1709.6 1 0.14 4 E1 8.04E-4 @C
147GD2 G %IG=0.13 4$
147GDS G KC=0.000382 6$LC=4.89E-5 7$MC=1.048E-5 15
147GDS G NC=2.41E-6 4$OC=3.75E-7 6$PC=2.58E-8 4$IPC=0.000361 5
147GD cG M$from |a(K)exp=0.00040 {i12} (1997Wa04) for this |g, 1709.6|g (from
147GD2cG 2862 level), and 1707.1|g (from 3119 level)
147GD G 1968.6 3 0.10 4
147GD2 G %IG=0.09 4$
147GD L 3124.5 (3/2,5/2)-
147GD E 0.000475 0.210 19 7.72 4 0.210 19
147GDS E EAV=223.7 38$CK=0.83363 9$CL=0.12718 6$CM+=0.03697 2
147GD G 1971.6 5 0.16 4 ? ?
147GD2 G %IG=0.15 4$
147GD G 3124.5 3 0.23 2
147GD2 G %IG=0.210 19$
147GD cG E$from Table 1 (Gamma transitions in {+147}Gd, 1997Wa04); it
147GD2cG differs from 3124.2 (Fig. 5a, 1997Wa04), probably a misprint
147GD L 3171.5 (1/2,3/2)+
147GD E 9.E-5 3 0.064 19 8.21 13 0.064 19
147GDS E EAV=202.9 36$CK=0.8340$CL=0.12748 5$CM+=0.03707 2
147GD G 1324.3 2 &
147GD cG M$from |a(K)exp=0.0010 {i8} (1997Wa04) for this |g and 1324.3|g (from
147GD2cG 2736 level)
147GD G 1411.8 3 0.07 2
147GD2 G %IG=0.064 18$
147GD L 3319.9
147GD E 0.60 7 7.14 6 0.60 7
147GDS E CK=0.8340$CL=0.12837 5$CM+=0.03737 2
147GD G 1907.5 4 0.14 3
147GD2 G %IG=0.128 28$
147GD G 2027.4 3 0.37 3 C
147GD2 G %IG=0.338 28$
147GD G 2167.5 5 0.15 5 C
147GD2 G %IG=0.14 5$
147GD L 3325.9
147GD E 0.71 5 7.06 4 0.71 5
147GDS E CK=0.8340$CL=0.12841 5$CM+=0.03738 2
147GD G 2033.45 8 0.60 4 C
147GD2 G %IG=0.55 4$
147GD G 2173.2 4 0.18 3 C
147GD2 G %IG=0.164 28$
147GD L 3574.2
147GD E 0.68 19 6.89 13 0.68 19
147GDS E CK=0.8318 1$CL=0.13018 8$CM+=0.03799 3
147GD G 1136.1 3 0.16 3 ?
147GD2 G %IG=0.146 28$
147GD G 1727.4 3 0.14 3 C
147GD2 G %IG=0.128 28$
147GD cG E$from Table 1 (Gamma transitions in {+147}Gd, 1997Wa04); it
147GD2cG differs from 1127.4 (Fig. 5a, 1997Wa04), probably a misprint
147GD G 2421.0 4 0.6 2 @
147GD2 G %IG=0.55 18$
147GD cG E$this value in Table 1, 2421.2 in Fig. 5a
147GD cG E$from Table 1 (Gamma transitions in {+147}Gd, 1997Wa04); it
147GD2cG differs from 2421.2 (Fig. 5a, 1997Wa04), probably a misprint
147GD L 3715.5 (1/2,3/2)-
147GD E 1.92 13 6.30 4 1.92 13
147GDS E CK=0.8299 2$CL=0.1316 1$CM+=0.03849 4
147GD G 2422.8 2 0.14 9 C
147GD2 G %IG=0.13 8$
147GD G 2562.9 1 1.96 10 C
147GD2 G %IG=1.79 10$
147GD L 3833.4 (1/2+)
147GD E 4.59 17 5.797 21 4.59 17
147GDS E CK=0.8277 2$CL=0.1333 2$CM+=0.03906 5
147GD G 1986.2 1 0.15 3 C
147GD2 G %IG=0.137 28$
147GD G 2205.54 7 0.50 2 C
147GD2 G %IG=0.457 21$
147GD G 2421.0 4 0.48 6 @C
147GD2 G %IG=0.44 6$
147GD G 2680.77 6 3.90 12 C
147GD2 G %IG=3.56 14$
147GD L 3853.3 (3/2)
147GD E 0.91 7 6.48 4 0.91 7
147GDS E CK=0.8272 2$CL=0.13362 14$CM+=0.03917 5
147GD G 1415.4 4 0.20 3 (M1) 0.00207 ?
147GD2 G %IG=0.183 28$
147GDS G KC=0.001721 25$LC=0.000231 4$MC=4.98E-5 7
147GDS G NC=1.146E-5 16$OC=1.79E-6 3$PC=1.236E-7 18$IPC=5.36E-5 8
147GD cG M$from |a(K)exp=0.0020 {i6} (1997Wa04)
147GD G 2006.15 8 0.49 2 C
147GD2 G %IG=0.447 21$
147GD G 2093.5 3 0.13 3 C
147GD2 G %IG=0.119 28$
147GD G 2560.8 2 0.38 6 C
147GD2 G %IG=0.35 6$
147GD L 3891.7 (1/2+,3/2-)
147GD E 0.40 4 6.79 5 0.40 4
147GDS E CK=0.8263 2$CL=0.13432 16$CM+=0.03941 6
147GD G 2044.6 4 0.09 2 C
147GD2 G %IG=0.082 18$
147GD G 2131.9 3 0.20 2 C
147GD2 G %IG=0.183 19$
147GD G 2193.1 4 0.08 2 ? ?
147GD2 G %IG=0.073 18$
147GD G 2263.8 3 0.15 2 C
147GD2 G %IG=0.137 19$
147GD G 2738.9 2 0.14 2 ?
147GD2 G %IG=0.128 18$
147GD L 3927.2
147GD E 0.26 5 6.93 9 0.26 5
147GDS E CK=0.8253 3$CL=0.13505 18$CM+=0.03966 6
147GD G 2165.8 3 0.16 4 C
147GD2 G %IG=0.15 4$
147GDF G FL=1759.9
147GD G 2775.3 2 0.12 2 C
147GD2 G %IG=0.110 18$
147GD L 3967.8
147GD E 0.447 21 6.634 25 0.447 21
147GDS E CK=0.8240 3$CL=0.13598 20$CM+=0.03998 7
147GD G 2815.19 8 0.49 2 C
147GD2 G %IG=0.447 21$
147GD L 3998.8
147GD E 0.32 4 6.73 6 0.32 4
147GDS E CK=0.8230 3$CL=0.13678 23$CM+=0.04026 8
147GD G 2586.6 1 0.15 3 C
147GD2 G %IG=0.137 28$
147GD G 2706.2 2 0.20 2 C
147GD2 G %IG=0.183 19$
147GD L 4051.9 (1/2,3/2)
147GD E 0.84 4 6.23 3 0.84 4
147GDS E CK=0.8208 4$CL=0.1384 3$CM+=0.04082 10
147GD G 1243.5 4 & ?
147GD G 2639.7 4 0.13 2 C
147GD2 G %IG=0.119 18$
147GD G 2759.45 8 0.79 3 C
147GD2 G %IG=0.721 32$
147GD L 4073.6
147GD E 0.57 5 6.36 5 0.57 5
147GDS E CK=0.8198 4$CL=0.1391 3$CM+=0.04108 11
147GD G 2225.8 3 0.09 2 C
147GD2 G %IG=0.082 18$
147GD G 2374.1 1 0.39 4 C
147GD2 G %IG=0.36 4$
147GD G 2661.4 2 0.14 2 C
147GD2 G %IG=0.128 18$
147GD G 2921.4 2 0.13 3 ? ?
147GD2 G %IG=0.119 28$
147GD L 4117.6 ?
147GD G 2418.2 3 0.11 3 ? ?
147GD2 G %IG=0.100 27$
147GD G 2489.6 2 & ?
147GD L 4132.4 (1/2,3/2)
147GD E 0.65 6 6.19 5 0.65 6
147GDS E CK=0.8165 6$CL=0.1416 4$CM+=0.04192 14
147GD G 2432.6 2 0.21 2 ? ?
147GD2 G %IG=0.192 19$
147GD G 2719.9 2 0.11 2 C
147GD2 G %IG=0.100 18$
147GD G 2840.1 2 0.60 6 C
147GD2 G %IG=0.55 6$
147GD G 2979.5 2 0.13 3 ? ?
147GD2 G %IG=0.119 28$
147GD L 4144.5 (1/2-)
147GD E 1.66 8 5.76 3 1.66 8
147GDS E CK=0.8157 6$CL=0.1422 4$CM+=0.04212 15
147GD G 2197.1 2 0.21 2 C
147GD2 G %IG=0.192 19$
147GD G 2444.4 9 0.30 5 C
147GD2 G %IG=0.27 5$
147GD G 2732.3 1 0.35 2 C
147GD2 G %IG=0.320 20$
147GD G 2852.00 8 0.55 3 C
147GD2 G %IG=0.502 30$
147GD G 2991.8 1 0.41 3 C
147GD2 G %IG=0.374 29$
147GD L 4176.7 (1/2,3/2)
147GD E 0.57 4 6.16 4 0.57 4
147GDS E CK=0.8134 7$CL=0.1439 5$CM+=0.04273 17
147GD G 2764.4 1 0.26 3 C
147GD2 G %IG=0.237 28$
147GD G 3024.1 1 0.36 2 C
147GD2 G %IG=0.329 20$
147GD L 4201.3 (1/2)
147GD E 1.10 5 5.82 3 1.10 5
147GDS E CK=0.8113 8$CL=0.1454 6$CM+=0.04326 19
147GD G 1968.5 ?
147GD G 2354.2 9 0.12 3 C
147GD2 G %IG=0.110 28$
147GD G 2789.08 8 0.54 3 C
147GD2 G %IG=0.493 30$
147GD G 2908.8 1 0.29 2 C
147GD2 G %IG=0.265 19$
147GD G 3048.6 1 0.25 1 C
147GD2 G %IG=0.228 11$
147GD L 4249.7 (1/2,3/2)
147GD E 0.37 5 6.17 7 0.37 5
147GDS E CK=0.8062 10$CL=0.1492 8$CM+=0.0446 3
147GD G 2489.6 2 0.22 3 &? ?
147GD2 G %IG=0.201 28$
147GD cG E$this value in Table 1, 2489.5 in Fig. 5a
147GD G 2837.8 3 0.26 4 C
147GD2 G %IG=0.24 4$
147GD G 2957.1 2 0.14 3 C
147GD2 G %IG=0.128 28$
147GD L 4280.4 (1/2,3/2)
147GD E 0.37 4 6.08 6 0.37 4
147GDS E CK=0.8021 13$CL=0.1522 9$CM+=0.0456 4
147GD G 2580.8 1 0.20 3 C
147GD2 G %IG=0.183 28$
147GD G 3128.3 4 0.21 2 C
147GD2 G %IG=0.192 19$
147GD L 4299.7 (1/2)
147GD E 0.47 4 5.92 5 0.47 4
147GDS E CK=0.7990 15$CL=0.1545 11$CM+=0.0464 4
147GD G 3007.2 1 0.38 3 C
147GD2 G %IG=0.347 29$
147GD G 3147.2 2 0.13 2 C
147GD2 G %IG=0.119 18$
147GD L 4369.9 (1/2,3/2)
147GD E 0.055 19 6.59 16 0.055 19
147GDS E CK=0.783 3$CL=0.1667 20$CM+=0.0507 7
147GD G 2610.0 5 0.06 2 C
147GD2 G %IG=0.055 18$
147GD G 3217.5 4 0.08 2 ? ?
147GD2 G %IG=0.073 18$
147GD L 4431.4 (1/2) ?
147GD G 3018.8 4 0.11 2 ? ?
147GD2 G %IG=0.100 18$
147GD G 3139.0 3 0.06 1 ?
147GD2 G %IG=0.055 9$
147GD G 3279.4 2 0.14 2 ?
147GD2 G %IG=0.128 18$