225FR 225RN B- DECAY 1997BU03 09NDS 200905
225FR H TYP=FUL$AUT=A. K. Jain (a), R. Raut (b), J. K. Tuli$
225FR2 H CIT=NDS 110, 1409 (2009)$CUT=1-Dec-2008$
225FR DG CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
225FR C 1997Bu03: {+225}Fr sources from Isolde mass separator following
225FR2C spallation of ^UC{-2} target by 600 MeV protons; two HPGe detectors
225FR3C (FWHM=1.8 keV at 1333); one HPGe x-ray detector (FWHM=0.70 keV at 122
225FR4C keV); mini-Orange electron spectrometer; measured E|g, I|g, E(ce),
225FR5C I(ce), |g|g coin, |g-ce coin, parent
225FR6c T{-1/2}. Supersedes 1987BoZP.
225FR C The decay scheme is taken from 1997Bu03. Note, however,
225FR2C that negative |b{+-} feeding of the 28 level is implied unless
225FR3C |d(28|g)=0.6, significantly larger than measured values (0.32 {I2} and
225FR4C 0.44 {I2}). Also, the measured multipolarity of the 202|g is
225FR5C inconsistent with its placement.
225FR CB IB From intensity balance at level, assigning (1/2)I|g|+(1/2)I|g
225FR2CB at each placement for doubly-placed transitions whose intensity
225FR3CB division has not been determined.
225FR CB LOGFT Calculated assuming an uncertainty of 300 keV in Q value.
225FR CG M From I|g and I(ce) data measured using systems with known
225FR2CG absolute efficiency calibrations.
225FR CG E(A) E|g values for 136.0|g, 668.05|g and 1421.0|g are at least
225FR2CG 5|s from expected least-squares adjusted value for placements
225FRxCG indicated.
225FR CG E(C),RI(C)$Peak obscured or unresolved in singles spectrum; most
225FR2CG of information was obtained from coincidence experiments.
225FR CG E(T) A multiscaling experiment indicates that this line has
225FR2CG the correct half-life for {+225}Rn decay.
225FR CG E(Z),RI(Z)$Transition not observed, but its existence and total
225FR2CG intensity was deduced from coincidences between lines feeding the 182
225FR3CG level and those depopulating the 152 and 182 levels.
225FR CL E From least-squares adjustment of E|g, omitting the 136.0|g,
225FR2CL 668.05|g and 1421.0|g each of which fits its placement very poorly (at
225FR3CL least 5|s from least-squares adjusted value), and all unresolved or
225FR4CL multiply-placed lines.
225FR CL J From adopted levels.
225RN P 0.0 7/2- 4.66 M 4 2.68E3 SY
225FR N 0.00552 25 0.0055225 1.0 1.0
225FR CN NR From [|S(I(|g+ce) to g.s. and 29 level) omitting
225FR2CN I(|g+ce)(29)]=100; this assumes negligible |b{+-} feeding from the
225FR3CN 7/2[743] parent to the 3/2[532] g.s. (|DK=|DN=|DJ=2, |D|p=no) and the
225FR4CN 5/2 {I3}/2[532] 28 level. Note that I|g normalization becomes 0.0071
225FR5CN {I19} if |d(28|g)=0.45 {I15} (assuming |S(I(|g+ce) to g.s.)=100), but
225FR6CN this |d(28|g) implies negative |b{+-} feeding to the 29 level.
225FR PN 3
225FR G 58.0 1 13.6 17
225FR G 62.48 5 30.3 15
225FR G 366.92 10 57 3M1 0.375 T
225FRS G KC=0.303 5$LC=0.0547 8$MC=0.01302 19$NC+=0.00430 6
225FRS G NC=0.00341 5$OC=0.000763 11$PC=0.0001224 18$QC=6.84E-6 10
225FR cG M |a(K)exp=0.54 {I4}.
225FR G 482.1 2 15 5
225FR G 484.7 2 22 5
225FR G 521.0 2 15.7 19
225FR G 534.25 10 25.0 18
225FR G 561.3 2 12 3
225FR G 587.7 2 11.4 20
225FR G 614.8 2 15.3 21
225FR G 718.0 2 19.9 20
225FR G 729.9 2 12.5 20
225FR G 768.60 10 71 5 T
225FR G 788.8 2 17.3 24
225FR G 790.70 10 30 3
225FR G 795.3 2 19.7 20
225FR G 804.6 2 24.0 18
225FR G 812.6 2 14.5 16
225FR G 815.5 2 16.2 26
225FR G 817.70 10 38.0 24
225FR G 826.25 10 31.5 21
225FR G 844.90 10 32.5 24
225FR G 915.70 10 30.8 19
225FR G 937.4 2 17.0 17
225FR G 941.0 2 11.6 16
225FR G 956.1 2 12.9 20
225FR G 974.6 2 28.1 22
225FR G 997.20 10 33.7 25
225FR G 1002.5 2 24.4 24
225FR G 1011.1 2 13.0 23
225FR G 1015.45 10 48 3
225FR G 1067.52 10 29.0 18
225FR G 1093.3 2 13 3
225FR G 1099.2 2 14.1 21
225FR G 1104.2 2 16.0 26
225FR G 1115.8 2 18.5 18
225FR G 1126.6 2 11.7 26
225FR G 1129.6 2 26 5
225FR G 1141.23 10 35.4 25
225FR G 1215.2 2 34 3
225FR G 1219.8 2 21.7 26
225FR G 1257.8 2 17.8 21
225FR G 1261.5 2 12.7 17
225FR G 1273.00 10 43 5
225FR G 1291.8 2 31 3
225FR G 1301.6 2 13.7 18
225FR G 1308.42 10 33.7 26
225FR G 1314.88 10 76 4
225FR G 1317.3 2 23.2 19
225FR G 1361.0 2 14.3 19
225FR G 1371.6 2 24.1 19
225FR G 1389.3 2 17.1 20
225FR G 1423.2 2 18.4 16
225FR G 1466.5 2 28 3
225FR G 1478.2 2 19.1 22
225FR G 1483.16 10 39.0 22
225FR G 1487.24 10 23.8 20
225FR G 1502.1 2 20.2 21
225FR G 1522.83 10 47 3
225FR G 1525.3 2 12.7 15
225FR G 1553.9 2 23 4
225FR G 1555.6 2 17 4
225FR G 1563.7 2 10.0 20
225FR G 1582.90 10 37 4
225FR G 1601.8 2 15.9 16
225FR G 1609.8 2 25.3 20
225FR G 1623.5 2 7.2 19
225FR G 1635.2 2 15.7 16
225FR G 1642.4 2 27.2 20
225FR G 1646.5 2 17.5 16
225FR G 1654.3 2 8.4 15
225FR G 1663.5 5 6.0 13
225FR G 1672.5 2 14.9 15
225FR G 1682.5 5 10.9 14
225FR G 1692.0 2 8.1 19
225FR G 1694.5 2 27.0 20
225FR G 1698.2 5 9.1 19
225FR G 1700.2 5 11.8 19
225FR G 1703.5 5 12.2 18
225FR G 1734.1 5 8.9 19
225FR G 1794.0 5 7.1 14
225FR G 1796.1 5 6.3 12
225FR G 1809.7 5 7.6 15
225FR G 1814.7 5 5.0 10
225FR G 1818.3 5 7.5 15
225FR G 1828.6 5 7.8 17
225FR G 1831.2 5 10.2 18
225FR G 1842.9 5 9.0 19
225FR G 1849.3 5 9.0 19
225FR G 1859.7 5 6.0 12
225FR G 1883.1 5 9.2 19
225FR G 1894.3 5 6.0 12
225FR G 1926.0 5 6.0 12
225FR L 0.0 3/2-
225FR L 28.545 23 5/2-
225FR cL Apparent %|b{+-} feeding to level of -22 {I21} may indicate
225FR2cL that |d(29|g) is significantly larger than |a(M)exp and |a(N)exp imply.
225FR G 28.51 5 12.2 22M1+E2 0.45 15 7.E2 4
225FRS G LC=5.E2 3$MC=1.4E2 7$NC+=46 23
225FRS G NC=37 19$OC=8 4$PC=1.0 5$QC=0.0099 5
225FR cG M |a(M)exp=89 {I6}, |a(N)exp=35.7 {I26}.
225FR cG MR 0.32 {I2} from |a(M)exp; 0.44 {I2} from |a(N)exp, assuming
225FR2cG no contribution from higher shells and |a(N)(M1)=5.31, |a(N)(E2)=195
225FR3cG from 2002Ba85. However, intensity balance at the 29 keV level implies a
225FR4cG lower limit for |a(exp) of 1.1|*10{+3} {I2} and this corresponds to
225FR5cG |d|?0.6, so the evaluators adopt |d=0.45 {I15}.
225FR L 82.515 24 7/2-
225FR G 53.93 5 210 12M1+E2 0.18 3 21.8 17 TC
225FRS G LC=16.4 13$MC=4.0 4$NC+=1.33 11
225FRS G NC=1.06 9$OC=0.232 18$PC=0.0353 23$QC=0.00159 3
225FR cG M (|a(L1)exp+|a(L2)exp)=13.4 {I10}, |a(L3)exp=3.5 {I3},
225FRxcG |a(M)exp=4.3 {I3}, |a(N)exp<1.8.
225FR cG MR from |d=0.17 {I3} from |a(L)exp=16.9 {I10} and 0.19 {I3}
225FR2cG from |a(M)exp. Note that |d<0.13 from |a(L12)exp and |d=0.250 {I12}
225FR3cG from |a(L3)exp. 1997Bu03, however, adopted |d=0.31 {I4} from these data
225FR cG %I|g=1.16 {I7} assuming adopted normalization.
225FR G 82.55 5 80 20E2 21.6 CC
225FRS G LC=15.93 23$MC=4.31 7$NC+=1.394 20
225FRS G NC=1.130 17$OC=0.234 4$PC=0.0300 5$QC=6.20E-5 9
225FR cG M (|a(L1)exp+|a(L2)exp)=8 {I3}, |a(L3)exp=6.1 {I23},
225FRxcG |a(M)exp=5.4 {I20}.
225FR cG %I|g=0.44 {I10} assuming adopted normalization.
225FR L 128.06 4 9/2-
225FR B 6 3 7.3 3 ?
225FRS B EAV=9.5E2 13
225FR G 45.5 1 32 5[M1] 28.1 TC
225FRS G LC=21.3 4$MC=5.09 8$NC+=1.68 3
225FRS G NC=1.335 21$OC=0.299 5$PC=0.0479 8$QC=0.00268 5
225FR cG M (|a(L1)exp+|a(L2)exp)|<37.
225FR G 99.4 1 150 50E2 9.02 CC
225FRS G LC=6.64 10$MC=1.80 3$NC+=0.582 9
225FRS G NC=0.472 7$OC=0.0977 15$PC=0.01259 19$QC=3.22E-5 5
225FR cG M (|a(L1)exp+|a(L2)exp)=4.8 {I16}, |a(L3)exp|<3.1,
225FRxcG |a(M)exp|<2.1.
225FR L 142.59 3 (3/2)+
225FR B 2.4 3 9.0 4 1U
225FRS B EAV=9.1E2 13
225FR G 114.03 5 157 8E1 0.344 TC
225FRS G KC=0.268 4$LC=0.0574 8$MC=0.01377 20$NC+=0.00444 7
225FRS G NC=0.00356 5$OC=0.000762 11$PC=0.0001097 16$QC=4.13E-6 6
225FR cG M (|a(L1)exp+|a(L2)exp)|<0.2, |a(M)exp|<0.29.
225FR G 142.60 5 547 28E1 0.200 @C
225FRF G FLAG=T
225FRS G KC=0.1578 23$LC=0.0319 5$MC=0.00765 11$NC+=0.00247 4
225FRS G NC=0.00198 3$OC=0.000426 6$PC=6.25E-5 9$QC=2.49E-6 4
225FR cG M |a(K)exp|<0.11, (|a(L1)exp+|a(L2)exp)|<0.04, |a(M)exp|<0.07.
225FR L 151.63 3 5/2+
225FR B 2.4 5 7.79 23
225FRS B EAV=9.4E2 13
225FR G 69.12 5 136 7E1 0.287 TC
225FRS G LC=0.217 3$MC=0.0525 8$NC+=0.01675 24
225FRS G NC=0.01351 19$OC=0.00284 4$PC=0.000390 6$QC=1.264E-5 18
225FR cG M (|a(L1)exp+|a(L2)exp)|<1.8.
225FR G 123.06 5 453 23E1 0.286 TC
225FRS G KC=0.224 4$LC=0.0470 7$MC=0.01126 16$NC+=0.00363 5
225FRS G NC=0.00291 4$OC=0.000625 9$PC=9.05E-5 13$QC=3.48E-6 5
225FR cG M (|a(L1)exp+|a(L2)exp)|<0.34, |a(L3)exp|<0.10, |a(M)exp|<0.25.
225FR G 151.65 5 1000 E1 0.1721 TC
225FRS G KC=0.1362 20$LC=0.0272 4$MC=0.00651 10$NC+=0.00211 3
225FRS G NC=0.001687 24$OC=0.000364 6$PC=5.36E-5 8$QC=2.17E-6 3
225FR cG M |a(K)exp|<1.1, (|a(L1)exp+|a(L2)exp)=|<0.05,
225FRxcG |a(L3)exp|<0.01, |a(M)exp|<0.10.
225FR cG %I|g=5.5 {I11} assuming adopted normalization.
225FR L 181.66 3 (9/2)+
225FR B 5.1 14 7.41 25 ?
225FRS B EAV=9.3E2 13
225FR G 30.0 [E2] 2.94E3 400 Z
225FRS G L/T=0.738 8$M/T=0.198 4$N+/T=0.0637 13
225FRS G N/T=0.0517 10$O/T=0.01066 21$P/T=0.00135 3$Q/T=1.68E-6 4
225FR G 53.6 1 30 10[E1] 0.566 CC
225FRS G LC=0.429 7$MC=0.1043 16$NC+=0.0330 5
225FRS G NC=0.0267 4$OC=0.00555 9$PC=0.000738 11$QC=2.20E-5 4
225FR G 99.15 5 1.50E3 20E1 0.1095 C
225FRS G LC=0.0831 12$MC=0.0200 3$NC+=0.00642 9
225FRS G NC=0.00516 8$OC=0.001098 16$PC=0.0001564 22$QC=5.67E-6 8
225FR cG M (|a(L1)exp+|a(L2)exp)|<0.62, |a(L3)exp|<0.31, |a(M)exp|<0.21
225FR L 198.23 3 (7/2)+
225FR B 3.3 6 7.60 24
225FRS B EAV=9.2E2 13
225FR G 46.6 1 6 2[M1] 26.2 @C
225FRS G LC=19.9 3$MC=4.75 8$NC+=1.570 25
225FRS G NC=1.245 20$OC=0.278 5$PC=0.0446 7$QC=0.00250 4
225FR cG M (|a(L1)exp+|a(L2)exp)|<196, |a(M)exp|<10.0 for doubly-placed
225FRxcG |g.
225FR G 70.15 5 54 3[E1] 0.275 TC
225FRS G LC=0.209 3$MC=0.0505 8$NC+=0.01610 23
225FRS G NC=0.01298 19$OC=0.00273 4$PC=0.000376 6$QC=1.224E-5 18
225FR G 115.75 5 116 6E1 0.332 TC
225FRS G KC=0.259 4$LC=0.0552 8$MC=0.01324 19$NC+=0.00426 6
225FRS G NC=0.00342 5$OC=0.000733 11$PC=0.0001057 15$QC=4.00E-6 6
225FR cG M (|a(L1)exp+|a(L2)exp)|<0.54.
225FR G 169.73 5 932 56E1 0.1309 C
225FRS G KC=0.1041 15$LC=0.0204 3$MC=0.00487 7$NC+=0.001577 23
225FRS G NC=0.001262 18$OC=0.000273 4$PC=4.05E-5 6$QC=1.683E-6 24
225FR cG M |a(K)exp|<0.66, (|a(L1)exp+|a(L2)exp)|<0.02, |a(M)exp|<0.04.
225FR L 203.40 4 (9/2)-
225FR B 3.2 18 7.6 4 ?
225FRS B EAV=9.2E2 13
225FR G 21.72 10 12.2 26[E1] 6.22 12
225FRS G LC=4.66 9$MC=1.197 23$NC+=0.367 7
225FRS G NC=0.302 6$OC=0.0586 11$PC=0.00653 12$QC=0.0001379 23
225FR G 120.83 5 139 7M1+E2 6.2 22 TC
225FRS G KC=4 4$LC=2.0 8$MC=0.51 22$NC+=0.17 7
225FRS G NC=0.13 6$OC=0.028 12$PC=0.0040 12$QC=9.E-5 7
225FR cG M |a(K)exp=6 {I2}, (|a(L1)exp+|a(L2)exp)=1.6 {I1}.
225FR G 174.90 10 100 30E2 0.906 CC
225FRS G KC=0.211 3$LC=0.512 8$MC=0.1379 20$NC+=0.0447 7
225FRS G NC=0.0362 6$OC=0.00754 11$PC=0.000993 15$QC=6.23E-6 9
225FR cG M |a(K)exp=0.33 {I13}.
225FR L 207.20 3 (5/2)-
225FR G 64.6 1 10.0 19[E1] 0.343 C
225FRS G LC=0.260 4$MC=0.0630 10$NC+=0.0201 3
225FRS G NC=0.01620 24$OC=0.00339 5$PC=0.000462 7$QC=1.466E-5 22
225FR G 178.66 5 367 18M1+E2 1.47 +18-141.44 10 TC
225FRS G KC=0.84 10$LC=0.448 7$MC=0.1165 22$NC+=0.0380 7
225FRS G NC=0.0306 6$OC=0.00649 11$PC=0.000907 13$QC=2.01E-5 22
225FR cG M |a(K)exp=0.88 {I10}, (|a(L1)exp+|a(L2)exp)=0.27 {I5},
225FRxcG |a(M)exp|<0.12.
225FR cG MR from |a(K)exp.
225FR G 207.21 5 132 7M1+E2 1.4 +4-3 0.94 16 TC
225FRS G KC=0.60 15$LC=0.254 5$MC=0.0654 10$NC+=0.0214 3
225FRS G NC=0.0172 3$OC=0.00367 6$PC=0.000522 15$QC=1.4E-5 4
225FR cG M |a(K)exp=0.62 {I15}, (|a(L1)exp+|a(L2)exp)|<0.43,
225FRxcG |a(M)exp|<0.08.
225FR cG MR from |a(K)exp.
225FR L 228.36 5 (7/2,9/2)-
225FR B 2.8 11 7.6 3
225FRS B EAV=9.1E2 13
225FR G 46.6 1 29 2(E1) 0.823 13 @C
225FRS G LC=0.623 10$MC=0.1522 23$NC+=0.0480 8
225FRS G NC=0.0389 6$OC=0.00802 13$PC=0.001046 16$QC=2.96E-5 5
225FR cG M (|a(L1)exp+|a(L2)exp)|<40.5, |a(M)exp|<2.1 for doubly-placed
225FR2cG |g dominated by this transition; not M1 from level scheme.
225FR G 145.80 5 116 6M1+E2 3.4 16 TC
225FRS G KC=2.1 19$LC=0.93 22$MC=0.24 7$NC+=0.079 22
225FRS G NC=0.063 18$OC=0.013 4$PC=0.0019 3$QC=5.E-5 4
225FR cG M |a(K)exp|<2.0, (|a(L1)exp+|a(L2)exp)=1.0 {I5}.
225FR L 241.37 3 (5/2)+
225FR G 89.7 1 26 3M1 3.86 CC
225FRS G LC=2.93 5$MC=0.699 10$NC+=0.231 4
225FRS G NC=0.183 3$OC=0.0410 6$PC=0.00658 10$QC=0.000368 6
225FR cG M (|a(L1)exp+|a(L2)exp)=2.0 {I3}.
225FR G 212.85 5 51.2 26(E1) 0.0760 TC
225FRS G KC=0.0609 9$LC=0.01149 16$MC=0.00274 4$NC+=0.000890 13
225FRS G NC=0.000711 10$OC=0.0001546 22$PC=2.32E-5 4$QC=1.015E-6 15
225FR cG M |a(K)exp|<0.18 consistent with E1 or E2; |D|p=yes from level
225FR2cG scheme.
225FR G 241.34 5 99 5(E1) 0.0565 T
225FRS G KC=0.0454 7$LC=0.00842 12$MC=0.00200 3$NC+=0.000652 10
225FRS G NC=0.000520 8$OC=0.0001135 16$PC=1.716E-5 24$QC=7.69E-7 11
225FR cG M |a(K)exp|<0.37, (|a(L1)exp+|a(L2)exp)|<0.11 consistent with
225FR2cG E1 or E2. |D|p=yes from level scheme.
225FR L 293.23 4 (7/2)+
225FR B 2.88 25 7.58 23
225FRS B EAV=8.8E2 13
225FR G 94.9 1 14 3M1 3.28 CC
225FRS G LC=2.49 4$MC=0.594 9$NC+=0.196 3
225FRS G NC=0.1557 23$OC=0.0348 5$PC=0.00558 8$QC=0.000312 5
225FR cG M (|a(L1)exp+|a(L2)exp)=1.8 {I5}.
225FR G 141.65 10 7 3[M1] 5.32 @
225FRS G KC=4.28 6$LC=0.786 12$MC=0.187 3$NC+=0.0620 9
225FRS G NC=0.0491 7$OC=0.01098 16$PC=0.001762 25$QC=9.84E-5 14
225FR G 165.20 5 255 13[E1] 0.1398 TC
225FRS G KC=0.1110 16$LC=0.0218 3$MC=0.00522 8$NC+=0.001690 24
225FRS G NC=0.001353 19$OC=0.000292 5$PC=4.33E-5 6$QC=1.79E-6 3
225FR cG M |a(K)exp|<4.5, (|a(L1)exp+|a(L2)exp)|<0.41, |a(M)exp|<0.47.
225FR G 264.67 5 292 14E1 0.0456 TC
225FRS G KC=0.0367 6$LC=0.00672 10$MC=0.001598 23$NC+=0.000521 8
225FRS G NC=0.000415 6$OC=9.08E-5 13$PC=1.378E-5 20$QC=6.29E-7 9
225FR cG M |a(K)exp|<0.12, (|a(L1)exp+|a(L2)exp)|<0.03.
225FR L 303.25 5 7/2+,9/2+,11/2+
225FR G 175.17 5 136 32E1 0.1213 TC
225FRS G KC=0.0965 14$LC=0.0188 3$MC=0.00449 7$NC+=0.001455 21
225FRS G NC=0.001164 17$OC=0.000252 4$PC=3.74E-5 6$QC=1.568E-6 22
225FR cG M |a(K)exp|<0.92, (|a(L1)exp+|a(L2)exp)|<0.60, |a(M)exp|<0.03.
225FR L 330.10 4 (5/2,7/2)-
225FR B 0.8 4 8.1 4 ?
225FRS B EAV=8.7E2 13
225FR G 126.80 10 26.2 14[M1,E2] 5.3 21 C
225FRS G KC=3 3$LC=1.6 6$MC=0.42 17$NC+=0.14 6
225FRS G NC=0.11 5$OC=0.023 9$PC=0.0033 9$QC=8.E-5 6
225FR G 131.84 10 74 4E1 0.242 CC
225FRF G FLAG=T
225FRS G KC=0.190 3$LC=0.0392 6$MC=0.00939 14$NC+=0.00303 5
225FRS G NC=0.00243 4$OC=0.000522 8$PC=7.61E-5 11$QC=2.98E-6 5
225FR cG M (|a(L1)exp+|a(L2)exp)|<0.07.
225FR G 247.60 5 66 3 [M1,E2] 0.7 5 TC
225FRS G KC=0.5 4$LC=0.140 22$MC=0.035 4$NC+=0.0115 13
225FRS G NC=0.0092 10$OC=0.0020 3$PC=0.00030 7$QC=1.1E-5 9
225FR cG M |a(K)exp|<1.6, (|a(L1)exp+|a(L2)exp)|<0.19.
225FR G 301.5 2 8.8 14[M1,E2] 0.39 25
225FRS G KC=0.29 23$LC=0.074 20$MC=0.018 4$NC+=0.0060 14
225FRS G NC=0.0048 11$OC=0.0011 3$PC=0.00016 5$QC=7.E-6 5
225FR G 330.10 10 30.0 15 0.32 21 T
225FRS G KC=0.24 19$LC=0.058 19$MC=0.014 4$NC+=0.0050 14
225FR L 346.03 4 (9/2)+
225FR B 3.0 7 7.51 25
225FRS B EAV=8.6E2 13
225FR G 104.72 10 16 3[E2] 7.37
225FRS G KC=0.301 5$LC=5.21 8$MC=1.410 21$NC+=0.456 7
225FRS G NC=0.370 6$OC=0.0767 12$PC=0.00989 15$QC=2.72E-5 4
225FR G 142.60 10 40 5[E1] 0.200 @C
225FRS G KC=0.1578 23$LC=0.0319 5$MC=0.00765 11$NC+=0.00247 4
225FRS G NC=0.00198 3$OC=0.000426 6$PC=6.25E-5 9$QC=2.49E-6 4
225FR G 147.96 10 33 6M1,E2 3.2 15
225FRS G KC=2.0 18$LC=0.88 19$MC=0.23 7$NC+=0.074 20
225FRS G NC=0.060 17$OC=0.013 3$PC=0.0018 3$QC=5.E-5 4
225FR cG M (|a(L1)exp+|a(L2)exp)=1.3 {I4}.
225FR G 164.41 5 79 4M1+E2 2.3 12 TC
225FRS G KC=1.5 13$LC=0.59 8$MC=0.15 3$NC+=0.050 10
225FRS G NC=0.040 8$OC=0.0085 14$PC=0.00122 8$QC=4.E-5 3
225FR cG M |a(K)exp=2.2 {I5}, (|a(L1)exp+|a(L2)exp)|<1.3.
225FR G 263.56 5 152 7 TC
225FR cG M |a(K)exp|<0.23, (|a(L1)exp+|a(L2)exp)|<0.05; consistent with
225FRxcG E1 or E2.
225FR L 409.04 4 5/2,7/2(+)
225FR G 202.02 5 48.2 24(E1) 0.0860 TC
225FRS G KC=0.0688 10$LC=0.01309 19$MC=0.00312 5$NC+=0.001014 15
225FRS G NC=0.000810 12$OC=0.0001760 25$PC=2.64E-5 4$QC=1.139E-6 16
225FR CG M |a(K)exp=2.4 {I9}, (|a(L1)exp+|a(L2)exp)|<0.37 suggest an M1
225FR2CG transition. It is inconsistent with the placement from this level
225FR3CG unless, perhaps, the 202|g feeds the (3/2+) level at E=205 {I3} seen
225FR4CG in (t,|a);this would not, however, explain observed |g|g coin data or
225FR5CG absence of strong enough transition(s) to deexcite that (3/2+) level.
225FR6CG 1997BU03 suggest that the 409 keV level may be a doublet with levels
225FR7CG of either parity. Therefore, at present E1 seems to be a better choice.
225FR G 210.70 10 15 2 M1(+E2) 1.1 7 CC
225FRS G KC=0.8 7$LC=0.243 13$MC=0.0613 11$NC+=0.0201 3
225FRS G NC=0.0161 3$OC=0.00347 10$PC=0.00051 6$QC=1.8E-5 14
225FR cG M |a(K)exp=1.4 {I3}.
225FR G 257.38 5 62 3 M1+E2 0.6 4 TC
225FRS G KC=0.4 4$LC=0.123 23$MC=0.031 4$NC+=0.0101 14
225FRS G NC=0.0081 11$OC=0.0018 3$PC=0.00026 7$QC=1.0E-5 8
225FR cG M |a(K)exp=0.65 {I10}, (|a(L1)exp+|a(L2)exp)|<0.19.
225FR G 326.47 10 49.5 25 &
225FRF G FLAG=T
225FR G 409.1 2 17.2 23
225FR L 424.97 8 (5/2-,7/2-)
225FR B 0.64 18 8.1 3 ?
225FRS B EAV=8.3E2 13
225FR G 296.80 10 104 5 [M1+E2] 0.4 3 T
225FRS G KC=0.31 24$LC=0.078 21$MC=0.019 4$NC+=0.0063 14
225FRS G NC=0.0051 11$OC=0.0011 3$PC=0.00017 6$QC=7.E-6 6
225FR cG M |a(K)exp|<0.35, (|a(L1)exp+|a(L2)exp)|<0.13.
225FR G 424.9 2 12.5 24
225FR L 480.09 6 (5/2,7/2,9/2)+
225FR B 1.43 18 7.75 25
225FRS B EAV=8.1E2 13
225FR G 71.16 10 20.1 23[M1] 7.58
225FRS G LC=5.75 9$MC=1.372 20$NC+=0.454 7
225FRS G NC=0.360 6$OC=0.0804 12$PC=0.01290 19$QC=0.000722 11
225FR G 186.6 3 20 4M1+E2 1.6 9 CC
225FRS G KC=1.1 9$LC=0.373 15$MC=0.095 10$NC+=0.031 3
225FRS G NC=0.0249 25$OC=0.0054 4$PC=0.00078 3$QC=2.5E-5 20
225FR cG M |a(K)exp=0.54 {I15}.
225FR G 251.65 10 12.0 12
225FR G 298.35 10 95 5[M1] 0.661 TC
225FRS G KC=0.533 8$LC=0.0967 14$MC=0.0230 4$NC+=0.00761 11
225FRS G NC=0.00603 9$OC=0.001348 19$PC=0.000216 3$QC=1.207E-5 17
225FR cG M |a(K)exp=0.51 {I13} and 0.60 {I6},
225FRxcG (|a(L1)exp+|a(L2)exp)=0.12 {I2}.
225FR L 502.96 5 (5/2)-
225FR B 0.69 7 8.1 3
225FRS B EAV=8.0E2 13
225FR G 295.55 10 53 4M1 0.678 TC
225FRS G KC=0.547 8$LC=0.0992 14$MC=0.0236 4$NC+=0.00781 11
225FRS G NC=0.00619 9$OC=0.001384 20$PC=0.000222 4$QC=1.239E-5 18
225FR cG M |a(K)exp=0.48 {I13}, (|a(L1)exp+|a(L2)exp)|<0.27.
225FR G 299.6 2 8.9 14[E2] 0.1454
225FRS G KC=0.0701 10$LC=0.0558 8$MC=0.01473 21$NC+=0.00479 7
225FRS G NC=0.00386 6$OC=0.000815 12$PC=0.0001116 16$QC=1.696E-6 24
225FR G 304.7 2 10.2 12 C
225FR G 351.3 2 20 5 CC
225FR G 360.45 10 30 3 C
225FR cG M |a(K)exp|<0.06; consistent with E1 or E2.
225FR G 503.00 10 25.2 20 &
225FR L 559.68 4 7/2-
225FR B 6.2 4 7.1 3
225FRS B EAV=7.7E2 13
225FR G 229.45 5 51.8 26M1 1.366 TC
225FRS G KC=1.102 16$LC=0.201 3$MC=0.0478 7$NC+=0.01581 23
225FRS G NC=0.01253 18$OC=0.00280 4$PC=0.000449 7$QC=2.51E-5 4
225FR cG M |a(K)exp=1.0 {I3} or 1.8 {I7}.
225FR G 318.32 10 64 3 TC
225FR cG M |a(K)exp|<0.22, (|a(L1)exp+|a(L2)exp)|<0.08.
225FR G 352.30 10 309 15M1 0.419 TC
225FRS G KC=0.339 5$LC=0.0612 9$MC=0.01455 21$NC+=0.00481 7
225FRS G NC=0.00382 6$OC=0.000853 12$PC=0.0001369 20$QC=7.64E-6 11
225FR cG M |a(K)exp=0.33 {I2} and 0.34 {I5},
225FRxcG (|a(L1)exp+|a(L2)exp)=0.070 {I3}.
225FR G 356.30 10 162 8M1 0.407 TC
225FRS G KC=0.329 5$LC=0.0593 9$MC=0.01411 20$NC+=0.00467 7
225FRS G NC=0.00370 6$OC=0.000827 12$PC=0.0001327 19$QC=7.41E-6 11
225FR cG M |a(K)exp=0.36 {I2}, (|a(L1)exp+|a(L2)exp)=0.09 {I1}.
225FR G 361.55 10 34.4 21 C
225FR G 378.05 10 64 3 TC
225FR cG M |a(K)exp|<0.22, (|a(L1)exp+|a(L2)exp)|<0.06.
225FR G 408.10 10 70 5 @C
225FR cG M |a(K)exp|<0.16.
225FR G 431.63 10 39 4M1 0.242 T
225FRS G KC=0.196 3$LC=0.0352 5$MC=0.00836 12$NC+=0.00276 4
225FRS G NC=0.00219 3$OC=0.000490 7$PC=7.86E-5 11$QC=4.39E-6 7
225FR cG M |a(K)exp=0.40 {I5}.
225FR G 476.9 2 18.7 19 &
225FR G 531.10 10 180 9M1 0.1389 T
225FRS G KC=0.1124 16$LC=0.0201 3$MC=0.00477 7$NC+=0.001578 23
225FRS G NC=0.001251 18$OC=0.000280 4$PC=4.49E-5 7$QC=2.51E-6 4
225FR cG M |a(K)exp=0.13 {I1}, (|a(L1)exp+|a(L2)exp)=0.02 {I1}.
225FR L 571.51 5 (7/2)-
225FR B 1.11 8 7.8 3
225FRS B EAV=7.7E2 13
225FR G 364.10 10 52.1 26M1 0.383 TC
225FRS G KC=0.310 5$LC=0.0559 8$MC=0.01330 19$NC+=0.00440 7
225FRS G NC=0.00349 5$OC=0.000779 11$PC=0.0001250 18$QC=6.98E-6 10
225FR cG M |a(K)exp=0.50 {I4}, (|a(L1)exp+|a(L2)exp)|<0.14.
225FR G 368.2 2 17.0 17[M1] 0.372
225FRS G KC=0.301 5$LC=0.0542 8$MC=0.01290 19$NC+=0.00426 6
225FRS G NC=0.00338 5$OC=0.000756 11$PC=0.0001213 17$QC=6.77E-6 10
225FR G 373.40 10 44.6 22 TC
225FR cG M |a(K)exp|<0.32, (|a(L1)exp+|a(L2)exp)|<0.09.
225FR G 389.90 10 24.9 16 TC
225FR G 419.8 2 57 6 CC
225FR cG M |a(K)exp|<0.16.
225FRF G FLAG=T
225FR G 543.05 10 26.8 20 T
225FR L 618.66 6(5/2,7/2,9/2)+
225FR G 273.07 10 12.8 11 [M1,E2] 0.5 4
225FRS G KC=0.4 3$LC=0.102 22$MC=0.025 5$NC+=0.0083 15
225FRS G NC=0.0066 11$OC=0.0014 3$PC=0.00022 6$QC=9.E-6 7
225FR G 288.80 10 27.9 16[E1] 0.0373 T
225FRS G KC=0.0301 5$LC=0.00545 8$MC=0.001295 19$NC+=0.000422 6
225FRS G NC=0.000337 5$OC=7.37E-5 11$PC=1.124E-5 16$QC=5.21E-7 8
225FR G 420.15 20 21 5M1 0.260 CC
225FRS G KC=0.210 3$LC=0.0378 6$MC=0.00900 13$NC+=0.00297 5
225FRS G NC=0.00236 4$OC=0.000527 8$PC=8.46E-5 12$QC=4.73E-6 7
225FR CG M |a(K)exp=0.41 {I13}.
225FR L 635.60 5(3/2,5/2,7/2)+
225FR G 394.50 10 14.8 15[M1,E2] 0.19 12
225FRS G KC=0.14 11$LC=0.033 13$MC=0.008 3$NC+=0.0026 9
225FRS G NC=0.0021 7$OC=0.00046 17$PC=7.E-5 3$QC=3.3E-6 24
225FR G 483.80 10 36 5M1 0.1781 @C
225FRS G KC=0.1441 21$LC=0.0258 4$MC=0.00614 9$NC+=0.00203 3
225FRS G NC=0.001608 23$OC=0.000360 5$PC=5.77E-5 8$QC=3.23E-6 5
225FR cG M |a(K)exp=0.52 if entire I(ce) for doublet is assigned to this
225FR2cG placement. |a(K)exp=0.18 for doublet.
225FR G 635.60 10 23.9 20 &
225FR L 665.18 4 (7/2)+
225FR B 1.11 9 7.8 3
225FRS B EAV=7.3E2 13
225FR G 105.29 10 24 3[E1] 0.415
225FRS G KC=0.321 5$LC=0.0709 10$MC=0.01702 25$NC+=0.00547 8
225FRS G NC=0.00440 7$OC=0.000938 14$PC=0.0001343 19$QC=4.95E-6 7
225FR G 256.20 10 14.6 15 [M1,E2] 0.6 4
225FRS G KC=0.5 4$LC=0.125 23$MC=0.031 4$NC+=0.0103 14
225FRS G NC=0.0082 11$OC=0.0018 3$PC=0.00027 7$QC=1.0E-5 8
225FR G 423.65 10 41.3 21M1 0.254 T
225FRS G KC=0.206 3$LC=0.0370 6$MC=0.00879 13$NC+=0.00291 4
225FRS G NC=0.00231 4$OC=0.000515 8$PC=8.27E-5 12$QC=4.62E-6 7
225FR cG M |a(K)exp=0.33 {I7}.
225FR G 461.55 10 18.2 16
225FR G 466.90 10 43.3 22M1 0.196 C
225FRS G KC=0.1585 23$LC=0.0284 4$MC=0.00676 10$NC+=0.00223 4
225FRS G NC=0.001771 25$OC=0.000396 6$PC=6.35E-5 9$QC=3.55E-6 5
225FR cG M |a(K)exp=0.19 {I3}.
225FR G 483.80 10 70 5M1 0.1781 @C
225FRF G FLAG=T
225FRS G KC=0.1441 21$LC=0.0258 4$MC=0.00614 9$NC+=0.00203 3
225FRS G NC=0.001608 23$OC=0.000360 5$PC=5.77E-5 8$QC=3.23E-6 5
225FR cG M |a(K)exp=0.27 if entire I(ce) for doublet is assigned to this
225FR2cG placement. |a(K)exp=0.18 for doublet.
225FR G 537.15 10 40.5 21 &
225FR cG M |a(K)exp|<0.05.
225FR L 721.06 5 (5/2)-
225FR B 3.97 24 7.1 3
225FRS B EAV=7.1E2 13
225FR G 240.6 3 6 2[E1] 0.0569 CC
225FRS G KC=0.0457 7$LC=0.00848 13$MC=0.00202 3$NC+=0.000657 10
225FRS G NC=0.000524 8$OC=0.0001143 17$PC=1.728E-5 25$QC=7.74E-7 11
225FR G 514.2 2 50 8M1 0.1514
225FRS G KC=0.1225 18$LC=0.0219 3$MC=0.00521 8$NC+=0.001721 25
225FRS G NC=0.001365 20$OC=0.000305 5$PC=4.90E-5 7$QC=2.74E-6 4
225FR cG M |a(K)exp=0.26 {I6}.
225FR G 517.8 2 9.6 23 C
225FR G 638.50 10 29.6 22M1 0.0852 &
225FRF G FLAG=T
225FRS G KC=0.0690 10$LC=0.01228 18$MC=0.00291 4$NC+=0.000963 14
225FRS G NC=0.000764 11$OC=0.0001708 24$PC=2.74E-5 4$QC=1.537E-6 22
225FR cG M |a(K)exp=0.10 {I3}.
225FR G 692.60 10 202 10M1 0.0687 T
225FRS G KC=0.0557 8$LC=0.00989 14$MC=0.00235 4$NC+=0.000776 11
225FRS G NC=0.000615 9$OC=0.0001375 20$PC=2.21E-5 3$QC=1.238E-6 18
225FR cG M |a(K)exp=0.077 {I9}.
225FR G 721.10 10 475 23M1 0.0618 T
225FRS G KC=0.0501 7$LC=0.00889 13$MC=0.00211 3$NC+=0.000697 10
225FRS G NC=0.000552 8$OC=0.0001235 18$PC=1.98E-5 3$QC=1.113E-6 16
225FR cG M |a(K)exp=0.046 {I7}, (|a(L1)exp+|a(L2)exp)=0.008 {I1}.
225FR cG %I|g=2.62 {I17} assuming adopted normalization.
225FR L 744.26 4 (5/2,7/2)+
225FR B 1.06 19 7.8 3 ?
225FRS B EAV=7.0E2 13
225FR G 335.45 10 26.0 13M1 0.479 T
225FRS G KC=0.387 6$LC=0.0700 10$MC=0.01665 24$NC+=0.00551 8
225FRS G NC=0.00437 7$OC=0.000976 14$PC=0.0001566 22$QC=8.74E-6 13
225FR cG M |a(K)exp=0.37 {I4}.
225FR G 398.5 2 11.5 26
225FR G 414.1 2 9.3 14 &
225FR G 451.00 10 22.0 16
225FR G 503.00 10 25.2 20 &
225FR G 537.15 10 40.5 21 &
225FRF G FLAG=T
225FR G 545.85 10 50.0 20M1 0.1291 @C
225FRF G FLAG=T
225FRS G KC=0.1045 15$LC=0.0187 3$MC=0.00443 7$NC+=0.001466 21
225FRS G NC=0.001162 17$OC=0.000260 4$PC=4.17E-5 6$QC=2.33E-6 4
225FR cG M |a(K)exp=0.19, |a(L12)exp=0.04 if entire I(ce) for doublet
225FR2cG is assigned to this placement. |a(K)exp=0.14 for doublet.
225FR G 562.50 10 10 3 C
225FR G 600.9 2 16.6 19
225FRL G FL=142.59
225FR L 754.53 5
225FR B 0.47 5 8.2 4 ?
225FRS B EAV=6.9E2 13
225FR G 136.06 5 47.5 24 T
225FRF G FLAG=A
225FRL G FL=618.66
225FR G 551.10 10 22.5 21 &
225FR G 572.70 10 46 5 &C
225FR G 602.2 2 12.0 19
225FR L 778.64 4 7/2-
225FR B 27.0 15 6.2 3
225FRS B EAV=6.8E2 13
225FR G 218.60 10 18.4 13[M1,E2] 1.0 6
225FRS G KC=0.7 6$LC=0.214 17$MC=0.0538 12$NC+=0.0176 6
225FRS G NC=0.0141 4$OC=0.00306 16$PC=0.00045 7$QC=1.6E-5 13
225FR G 275.65 10 11.6 12[M1] 0.822
225FRS G KC=0.663 10$LC=0.1204 17$MC=0.0287 4$NC+=0.00948 14
225FRS G NC=0.00751 11$OC=0.001679 24$PC=0.000269 4$QC=1.503E-5 21
225FR G 369.65 10 34.0 19 T
225FR G 432.54 10 55 4 TC
225FR cG M |a(K)exp|<0.29.
225FR G 448.65 10 55 3 TC
225FR cG M |a(K)exp|<0.10.
225FR G 537.15 10 40.5 21 &
225FR G 571.40 10 272 13M1 0.1143 TC
225FRS G KC=0.0926 13$LC=0.01652 24$MC=0.00392 6$NC+=0.001297 19
225FRS G NC=0.001028 15$OC=0.000230 4$PC=3.69E-5 6$QC=2.07E-6 3
225FR cG M |a(K)exp=0.10 {I1} and 0.11 {I3},
225FRxcG (|a(L1)exp+|a(L2)exp)=0.021 {I2}.
225FR G 627.10 10 94 5 TC
225FR cG M |a(K)exp|<0.023.
225FR G 650.65 10 260 14M1 0.0811 @C
225FRF G FLAG=T
225FRS G KC=0.0657 10$LC=0.01168 17$MC=0.00277 4$NC+=0.000916 13
225FRS G NC=0.000726 11$OC=0.0001624 23$PC=2.61E-5 4$QC=1.462E-6 21
225FR cG M |a(K)exp=0.071 {I6}, (|a(L1)exp+|a(L2)exp)|<0.012.
225FR G 696.20 10 1.51E3 7M1 0.0678 TC
225FRS G KC=0.0550 8$LC=0.00976 14$MC=0.00231 4$NC+=0.000765 11
225FRS G NC=0.000607 9$OC=0.0001356 19$PC=2.18E-5 3$QC=1.222E-6 18
225FR cG M |a(K)exp=0.052 {I2}, (|a(L1)exp+|a(L2)exp)|<0.009.
225FR G 750.15 10 2.15E3 11M1 0.0557 T
225FRS G KC=0.0452 7$LC=0.00800 12$MC=0.00190 3$NC+=0.000628 9
225FRS G NC=0.000497 7$OC=0.0001112 16$PC=1.79E-5 3$QC=1.003E-6 14
225FR cG M |a(K)exp=0.040 {I2}, (|a(L1)exp+|a(L2)exp)=0.007,
225FRxcG |a(M)exp|<0.002.
225FR G 778.70 10 127 6E2 0.01401 T
225FRS G KC=0.01049 15$LC=0.00265 4$MC=0.000654 10$NC+=0.000215 3
225FRS G NC=0.0001714 24$OC=3.74E-5 6$PC=5.65E-6 8$QC=2.28E-7 4
225FR cG M |a(K)exp=0.004 {I3}.
225FR L 832.18 7 (5/2+,7/2,9/2+)
225FR B 0.30 6 8.2 3
225FRS B EAV=6.6E2 13
225FR G 486.1 2 28 8
225FR G 590.6 2 11.5 20
225FR G 634.0 2 12.3 19
225FR G 650.65 10 30 5 @C
225FR cG M |a(K)exp|<0.69.
225FR G 680.9 2 16.1 18
225FR L 839.09 5 (5/2,7/2,9/2)+
225FR B 1.35 10 7.6 3
225FRS B EAV=6.6E2 13
225FR G 203.4 3 10 3[M1,E2] 1.2 7 C
225FRS G KC=0.9 7$LC=0.275 9$MC=0.069 3$NC+=0.0227 7
225FRS G NC=0.0182 7$OC=0.00393 6$PC=0.00058 6$QC=2.0E-5 16
225FR G 414.1 2 9.3 14 &
225FR G 535.80 10 71 4M1 0.1356 TC
225FRS G KC=0.1098 16$LC=0.0196 3$MC=0.00466 7$NC+=0.001541 22
225FRS G NC=0.001222 18$OC=0.000273 4$PC=4.38E-5 7$QC=2.45E-6 4
225FR cG M |a(K)exp=0.15 {I2}.
225FR G 545.85 10 20.0 20M1 0.1291 @C
225FRS G KC=0.1045 15$LC=0.0187 3$MC=0.00443 7$NC+=0.001466 21
225FRS G NC=0.001162 17$OC=0.000260 4$PC=4.17E-5 6$QC=2.33E-6 4
225FR cG M |a(K)exp=0.47 if entire I(ce) for doublet is assigned to this
225FR2cG placement. |a(K)exp=0.14 for doublet.
225FR G 635.60 10 23.9 20 &
225FR G 640.8 2 15 5 C
225FR G 711.0 2 16.7 17 T
225FR G 756.70 10 22.9 23 &
225FR G 839.2 2 32 7 &
225FR L 865.74 4 (7/2)-
225FR B 5.4 3 6.9 3
225FRS B EAV=6.5E2 13
225FR G 362.75 10 20.0 16[M1] 0.387
225FRS G KC=0.313 5$LC=0.0565 8$MC=0.01343 19$NC+=0.00444 7
225FRS G NC=0.00352 5$OC=0.000787 11$PC=0.0001263 18$QC=7.05E-6 10
225FR G 562.50 10 15 3 C
225FR G 572.70 10 46 5 &
225FR G 624.3 2 13.4 17
225FR G 658.30 10 71 4M1 0.0786 T
225FRS G KC=0.0637 9$LC=0.01132 16$MC=0.00269 4$NC+=0.000888 13
225FRS G NC=0.000704 10$OC=0.0001574 22$PC=2.53E-5 4$QC=1.417E-6 20
225FR cG M |a(K)exp=0.10 {I1}.
225FR G 662.30 10 80 5 TC
225FR G 668.05 10 31.7 16 A
225FRL G FL=198.23
225FR G 683.9 2 16.8 19
225FR G 714.00 10 29.7 17 C
225FR G 723.00 10 85 4 T
225FR cG M |a(K)exp|<0.08.
225FR cG Transition omitted from level scheme in fig. 6 of 1997Bu03.
225FR G 737.70 10 98 5M1 0.0582 T
225FRS G KC=0.0472 7$LC=0.00837 12$MC=0.00198 3$NC+=0.000656 10
225FRS G NC=0.000520 8$OC=0.0001163 17$PC=1.87E-5 3$QC=1.048E-6 15
225FR cG M |a(K)exp=0.041 {I9}.
225FR G 783.40 10 72 4M1 0.0497 TC
225FRS G KC=0.0404 6$LC=0.00714 10$MC=0.001693 24$NC+=0.000559 8
225FRS G NC=0.000443 7$OC=9.92E-5 14$PC=1.593E-5 23$QC=8.94E-7 13
225FR cG M |a(K)exp=0.052 {I9}.
225FR G 837.00 10 386 25M1 0.0418 @
225FRF G FLAG=T
225FRS G KC=0.0339 5$LC=0.00599 9$MC=0.001421 20$NC+=0.000470 7
225FRS G NC=0.000372 6$OC=8.32E-5 12$PC=1.337E-5 19$QC=7.51E-7 11
225FR cG M |a(K)exp=0.045 {I4}.
225FR G 866.0 2 10.4 25 &
225FR L 885.95 5 (3/2,5/2)+
225FR B 2.41 22 7.2 3
225FRS B EAV=6.4E2 13
225FR G 141.65 10 8 6[M1,E2] 3.7 17 @
225FRS G KC=2.3 20$LC=1.0 3$MC=0.27 9$NC+=0.09 3
225FRS G NC=0.071 22$OC=0.015 5$PC=0.0021 4$QC=5.E-5 5
225FR G 326.47 10 49.5 25 &
225FR G 405.6 2 45 5 T
225FR G 476.9 2 18.7 19 &
225FR G 644.40 10 28.4 23 T
225FR G 679.1 2 11.1 22 &
225FR G 734.40 10 56 3 TC
225FR G 743.35 10 102 5M1 0.0571 TC
225FRS G KC=0.0463 7$LC=0.00820 12$MC=0.00195 3$NC+=0.000643 9
225FRS G NC=0.000510 8$OC=0.0001140 16$PC=1.83E-5 3$QC=1.027E-6 15
225FR cG M |a(K)exp=0.04 {I1}.
225FR G 857.5 2 23 3
225FR G 885.85 10 59 3 T
225FR L 935.68 8 (5/2-,7/2,9/2+)
225FR B 0.01 3 8.6 5 ?
225FRS B EAV=6.2E2 13
225FR G 605.6 2 17.0 23
225FR G 784.0 2 CC
225FR G 808.0 2 13.5 18
225FR L 979.66 5 (3/2-,5/2)
225FR B 1.15 16 7.4 4
225FRS B EAV=6.0E2 13
225FR G 408.10 10 34 7 @
225FR cG M |a(K)exp|<0.34.
225FR G 828.05 10 27 3 C
225FR G 837.00 10 100 25 @C
225FR cG M |a(K)exp|<0.17.
225FR G 951.00 10 54.8 27
225FR G 979.6 2 14.1 20
225FR L 1047.44 5
225FR B 1.00 8 7.5 4
225FRS B EAV=5.7E2 13
225FR G 292.80 10 7.0 10
225FR G 326.47 10 49.5 25 &
225FR G 638.50 10 29.6 22 &
225FR G 806.2 2 21.7 17
225FR G 866.0 2 10.4 25 &
225FR G 895.7 2 54 8 C
225FR G 1047.32 10 41.8 26
225FR L 1063.03 5
225FR B 1.06 7 7.4 4
225FRS B EAV=5.7E2 13
225FR G 127.31 10 17 3 &
225FR G 308.8 2 10.5 12
225FR G 397.6 2 14.8 25
225FR G 427.65 10 38.3 22 T
225FR G 759.6 2 22.4 22
225FR G 834.6 2 18 3
225FR G 855.5 2 10.8 26 &
225FR G 859.2 2 13.5 21
225FR G 864.5 2 33.1 22
225FR G 881.40 10 36.4 22
225FR L 1101.84 8 (7/2,9/2,11/2)+
225FR B 0.58 5 7.6 4
225FRS B EAV=5.5E2 13
225FR G 808.0 2
225FR G 899.0 2 11.9 13
225FR G 903.2 2 14 4
225FR G 920.30 10 76 4M1 0.0326 C
225FRS G KC=0.0265 4$LC=0.00467 7$MC=0.001106 16$NC+=0.000366 6
225FRS G NC=0.000290 4$OC=6.48E-5 9$PC=1.041E-5 15$QC=5.86E-7 9
225FR cG M |a(K)exp=0.06 {I3}.
225FR L 1185.18 5 (5/2-,7/2)
225FR B 1.73 10 7.1 4
225FRS B EAV=5.2E2 13
225FR G 319.61 10 29.6 15 T
225FR G 566.3 2 17.9 22
225FR G 705.10 10 64 3 T
225FR G 839.2 2 32 7 &
225FR G 855.5 2 10.8 26 &
225FR G 891.7 2 23.3 20
225FR G 978.1 2 12.6 20
225FR G 981.5 2 23.2 23
225FR G 1033.5 2 79 4 C
225FR G 1102.55 10 32.3 26
225FR L 1226.03 7
225FR B 0.44 5 7.6 4
225FRS B EAV=5.0E2 12
225FR G 472.1 2 11.0 22 &
225FR G 801.0 2 19.7 22
225FR G 1027.4 2 20 4 C
225FR G 1044.7 2 12.3 25
225FR G 1143.65 10 51 3
225FR L 1392.17 6 (5/2,7/2-)
225FR B 0.66 5 7.2 5
225FRS B EAV=4.4E2 12
225FR G 412.30 10 20.7 18
225FR G 727.4 2 14.1 20
225FR G 756.70 10 22.9 23 &
225FR G 821.1 2 13.0 23
225FR G 1194.1 2 32 3 C
225FR G 1363.3 2 22.4 18
225FR G 1392.0 2 11.3 22
225FR L 1479.63 5 (7/2)
225FR B 2.58 15 6.5 5
225FRS B EAV=4.0E2 12
225FR G 758.5 2 14.9 20
225FR G 814.1 2 18.6 22
225FR G 999.5 2 20.4 20
225FR G 1070.48 10 34.9 24
225FR G 1176.2 2 14.2 21
225FR G 1281.3 2 15.2 20
225FR G 1298.03 10 74 4 C
225FR G 1328.1 2 75 10 @C
225FR G 1337.40 10 30 10 @C
225FRL G FL=142.59
225FR G 1351.40 10 56 4
225FR G 1397.00 10 25.5 21
225FR G 1451.16 10 89 5
225FR L 1519.42 6
225FR B 0.93 8 7.0 5
225FRS B EAV=3.9E2 12
225FR G 127.31 10 17 3 &
225FR G 472.1 2 11.0 22 &
225FR G 798.7 2 18.4 17 &
225FR G 959.8 2 11.0 20
225FR G 1173.3 2 24 3
225FR G 1226.7 2 12.4 25
225FR G 1321.4 2 24.6 19
225FR G 1337.40 10 50 10 @C
225FRL G FL=181.66
225FR L 1526.13 10
225FR B 0.58 7 7.2 5
225FRS B EAV=3.8E2 12
225FR G 1195.7 2 25 5 C
225FR G 1328.1 2 30 10 @C
225FR G 1374.6 2 14.7 18 &
225FR G 1443.2 2 14.6 22
225FR G 1498.0 2 20.6 21
225FR L 1577.88 7 (5/2+,7/2)
225FR B 1.04 6 6.8 5
225FRS B EAV=3.6E2 12
225FR G 798.7 2 18.4 17 &
225FR G 942.8 2 10.5 18
225FR G 1017.6 2 16.5 26
225FR G 1169.2 2 25.9 24
225FR G 1232.2 2 14.3 22
225FR G 1374.6 2 14.7 18 &
225FR G 1495.30 10 72 4
225FR G 1549.3 2 15.7 21
225FR L 1614.26 7 (5/2,7/2+)
225FR B 0.84 6 6.9 5
225FRS B EAV=3.5E2 12
225FR G 388.50 10 34.3 17
225FR G 551.10 10 22.5 21 &
225FR G 679.1 2 11.1 22 &
225FR G 948.9 2 21.3 21
225FR G 1111.2 2 11 4
225FR G 1385.3 2 18.9 19
225FR G 1416.3 2 17.0 15
225FR G 1471.2 2 15.5 26
225FR L 1655.35 5 (5/2,7/2+)
225FR B 1.32 8 6.6 6
225FRS B EAV=3.3E2 12
225FR G 470.2 2 10.4 22
225FR G 823.40 10 32.8 21
225FR G 876.7 2 16.9 22
225FR G 901.8 2 15 4
225FR G 990.0 2 13.8 15
225FR G 1019.40 10 39 3
225FR G 1095.1 2 16 3
225FR G 1229.9 2 12.3 22
225FR G 1457.10 10 24 3 C
225FR G 1504.4 2 23.1 21
225FRL G FL=151.63
225FR G 1512.8 2 24.7 22
225FR G 1626.8 2 10.3 16
225FR L 1749.84 6 (5/2,7/2+)
225FR B 1.53 9 6.4 6
225FRS B EAV=3.0E2 12
225FR G 702.40 10 22.3 24
225FR G 917.4 2 9.9 19
225FR G 1028.8 2 23 4
225FR G 1084.2 2 18.9 24
225FR G 1130.9 2 15 5
225FR G 1421.0 2 16.2 16 A
225FRL G FL=330.10
225FR G 1508.6 2 23.5 21
225FR G 1551.4 2 25.4 21
225FR G 1568.10 10 87 5 C
225FR G 1607.3 3 10.6 11
225FR G 1667.4 2 25.9 19