227RA 227FR B- DECAY (2.47 M) 1981VO03,1987BO04,1996AA0116NDS 201602
227RA H TYP=FUL$AUT=ICTP-2014 Workshop Group$CIT=NDS 132, 257 (2016)$
227RA2 H CUT=15-Jan-2016$
227RA H TYP=FUL$AUT=F.G. KONDEV AND S. PASCU$CIT=ENSDF$CUT=15-JAN-2016$
227RA c 1981Vo03: {+227}Fr activity produced by spallation of 600-MeV protons
227RA2c on a UC{-2} target. Mass-separated sources measured on-line at ISOLDE
227RA3c (CERN). Detectors: 2 Ge(Li) with active volumes of 32 and 74 cm{+3}.
227RA4c 30 s collecting and 30 s measuring cycle was used. Measured: E|g and
227RA5c I|g, |g-|g coin. Deduced: level scheme
227RA C 1987Bo04: {+227}Fr activity produced by spallation of 600-MeV protons
227RA2c on a UC{-2} target. Mass-separated sources measured on-line at ISOLDE
227RA3c (CERN). Detectors: a mini-orange magnetic focusing spectrometer
227RA4c comprising of a cooled 300 mm{+2} Si(Li), 2 mm thick (FWHM=2 keV)
227RA5c and 2 Ge(Li) with active volumes of 68 and 88 cm{+3}.
227RA6c 50 s collecting and 200 s measuring cycle was used. Measured: E|g,
227RA7c I|g, E(e{+-}), I(e{+-}), |g-|g, and e{+-}-|g coin.
227RA8c Deduced: level scheme, conversion electron coefficients
227RA C 1996Aa01: {+227}Fr activity produced by spallation of 1-GeV protons
227RA2c on a ThC{-2} target. Mass-separated sources measured on-line at ISOLDE
227RA3c (CERN). Detectors: 3 mm thick NE111A plastic scintillator, small
227RA4c BaF{-2} and two Ge(Li) with |g detection efficiencies of 40% and 70%.
227RA5c Measured: E|g, I|g, |b-|g(Ge)-t, |b-|g(BaF{-2})-t,
227RA6c |b-|g(Ge)-|g(Ge)-t coin., |b-|g(BaF{-2})-|g(Ge)-t coin.
227RA7c Deduced: level scheme, levels lifetimes.
227RA8c Other from the same collaboration: 1994MaZO
227RA c Others: 1975We23: Mass-separated sources measured on-line at ISOLDE
227RA2c (CERN); Measured: |b{+-} spectra, singles, and in coincidence with
227RA2c individual |g rays. Detectors: Ge(Li), plastic scintillator.
227RA3c 1984LE04: discussion of a stable octupole deformation in {+227}Ra.
227RA CG E,RI$From 1981Vo03, unless otherwise stated
227RA CG M,MR$From measured conversion coefficients in 1987BO04, deduced by
227RA2CG using RI from 1981VO03 and EKC(586G)=0.095 10 (1987BO04).
227RA3CG Uncertainties in the conversion coefficients are statistical.
227RA4CG Additional systematic uncertainties of AP 10% and AP 50% for
227RA5CG values deduced from singles and coincidence measurements,
227RA6CG respectively, should also be expected.
227RA CG RI(Z),E(V)$From 226RA(N,G) E=thermal (1981VO03).
227RA CG RI(X)$From 1996Aa01
227RA CG E(W)$From level energy differences
227RA CG CC$FROM BrIcc v2.3a (30-Jun-2013) 2008Ki07, "Frozen Orbitals" appr.
227RA CG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1
227RA CL E$From a least-squares fit to G-ray energies, by evaluators
227RA cL J$From Adopted Levels.
227RA CL T$From BG(T) and the centroid-shift technique in 1996Aa01, unless
227RA2CL otherwise stated
227RA CL BAND(A)$3/2[631] ROTATIONAL BAND.
227RA CL BAND(B)$5/2[633] ROTATIONAL BAND.
227RA CL BAND(D)$3/2[761] ROTATIONAL BAND.
227RA CL BAND(E)$1/2[631] ROTATIONAL BAND.
227RA CL BAND(F)$1/2[631]~#0- (OCTUPOLE VIBRATION).
227RA CL BAND(I)$1/2[501] ROTATIONAL BAND.
227FR P 0.0 1/2+ 2.47 M 3 2506 13
227FR cP J,T$From {+227}Fr Adopted Levels
227FR cP QP$From 2012Wa38
227RA N 0.74 4 1.0 1.0
227RA PN 3
227RA CN NR$From the decay scheme by assuming no direct B- feeding
227RA2CN to the GS (3/2+), 1.74-KEV (5/2+), 25.8-KEV (5/2+), and 64.1-KEV
227RA3CN (7/2+) levels of 227RA, and by setting SUMOF TI=100% to these levels.
227RA4CN No significant B- feeding is expected to the 3/2+, 3/2[631] GS of 227RA
227RA5CN in the B- decay of 227FR (1/2+,1/2[400]), since such a transition would
227RA6CN be hindered (DN=2). Similarly, no B- decay branch to the 221-KEV
227RA7CN (3/2[631]) level of 231TH is observed in the B- decay of 231AC
227RA8CN (1/2[400]) (1986GI08). Possible mixing of the parent state (1/2[400])
227RA9CN with the 1/2[660] orbital would also lead to a hindered decay, since
227RAACN |Dn{-z}=3. An experimental value of 4% 1 for the absolute intensity of
227RABCN the 369.7G, reported by 1981VO03, seems to be in error, since it would
227RADCN lead to AP 125% feeding to the ground state and the 1.74-KEV state
227RA G 145.139 16 0.09 1 V
227RA G 173.9 3 0.09 2
227RA G 202.394 4 0.10 2 V
227RA G 225.469 39 0.09 2 V
227RA G 249.3 1 0.08 2
227RA G 251.9 1 0.08 2
227RA G 270.6 1 0.06 1 ?
227RA CG E$ Tentative assignment to 296 level by 1981VO03 is not
227RA2CG consistent with adopted level scheme.
227RA G 306.2 2 0.04 2
227RA G 497.0 2 0.10 2
227RA G 600.4 5 0.07 2
227RA G 789.2 5 0.15 2
227RA G 889.3 5 0.18 3
227RA G 937.0 5 0.12 2
227RA G 981.3 5 0.04 1
227RA G 1013.4 5 0.09 2
227RA G 1247.4 5 0.04 1
227RA G 1272.4 5 0.03 1
227RA L 0.0 3/2+ 42.2 M 5 A
227RA CL T$from Adopted Levels.
227RA L 1.733 12 (5/2)+ B
227RA G 1.733 12 3.07E-7 [M1+E2] 3.0E7 3 S
227RAF G FLAG=W
227RA CG RI$from intensity balance by assuming no direct B- decay feeding to
227RA2CG this level.
227RA L 25.768 3 5/2+ A
227RA G 25.768 3 0.012 [M1+E2] 3.0E3 4 S
227RAF G FLAG=W
227RA CG RI$from intensity balance by assuming no direct B- decay feeding to
227RA2CG this level.
227RA L 64.077 10 7/2+ A
227RA G 64.085 10 0.046 9 [E2] 78.8 V
227RA CG RI$from intensity balance by assuming no direct B- decay feeding to
227RA2CG this level. Note that RI AP 0.4 is reported by 1981VO03, but it results
227RA2CG in a significant feeding to this level, which seem highly unlikely
227RA3CG given the |DL=3 nature of the transition
227RAS G LC=57.9 9$MC=15.72 22
227RAS G NC=4.15 6$OC=0.880 13$PC=0.1265 18$QC=0.000301 5
227RA L 90.0343 173/2- 254 PS 9 D
227RA CL T$from |b-BaF{-2}(64|g + 90|g)(|Dt). Other: 262 PS 50, earlier
227RA2CL analysis in 1994MaZO.
227RA B 18 5 6.56 13
227RAS B EAV=892.4 55
227RA G 64.267 2 18.3 19E1 0.358 V
227RAS G LC=0.271 4$MC=0.0659 10
227RAS G NC=0.01704 24$OC=0.00365 6$PC=0.000546 8$QC=2.36E-5 4
227RA CG M$from EL1C+EL2C LE 0.20 and EL3C LE 0.10 (1987BO04).
227RA2CG Other value: ELC + EMC LE 2.6, from G-ray intensity balance in
227RA3CG 226RA(N,G) E=thermal (1981VO03).
227RA G 88.301 12 1.6 LE[E1] 0.1536 X ?
227RAF G FLAG=W
227RAS G LC=0.1163 17$MC=0.0281 4
227RAS G NC=0.00729 11$OC=0.001583 23$PC=0.000245 4$QC=1.173E-5 17
227RA G 90.035 2 49 5 E1 0.1458 V
227RAS G LC=0.1105 16$MC=0.0267 4
227RAS G NC=0.00693 10$OC=0.001504 21$PC=0.000233 4$QC=1.123E-5 16
227RA CG M$from (EL1C + EL2C) LE 0.09, EL3C LE 0.03, and EMC=0.026 5 (1987BO04).
227RA2CG Other: (ELC + EMC) LE 0.9, from G-ray intensity balance in
227RA3CG 226RA(N,G) E=thermal (1981VO03).
227RA L 101.8942 185/2- 236 PS 30 D
227RA CL T$from |b-BaF{-2}(sum of 84-115 keV energy region)(|Dt).
227RA B 2.3 10 8.64 19 1U
227RAS B EAV=851.9 53
227RA G 11.860 3 0.0054 LE[M1+E2] X S
227RAF G FLAG=W
227RAS G MC=303 5
227RAS G NC=80.0 12$OC=18.3 3$PC=3.18 5$QC=0.251 4
227RA G 37.9 1 0.82 19E1 1.466 23
227RAS G LC=1.105 18$MC=0.273 5
227RAS G NC=0.0702 11$OC=0.01462 23$PC=0.00203 4$QC=7.20E-5 11
227RA CG M$from EMC LE 1.5 (1987BO04).
227RA G 76.1 1 0.19 3 [E1] 0.228
227RAS G LC=0.1727 25$MC=0.0419 6
227RAS G NC=0.01084 16$OC=0.00234 4$PC=0.000357 6$QC=1.629E-5 24
227RA CG M$EL1C+EL2C LE 13; EL3C LE 4.8 (1987BO04)
227RA G 100.1 2 3.4 7 E1 0.1101 17
227RAS G LC=0.0834 13$MC=0.0201 3
227RAS G NC=0.00523 8$OC=0.001139 17$PC=0.000178 3$QC=8.87E-6 13
227RA CG M$from ELC LE 0.08 (1987BO04).
227RA G 101.894 2 4.5 7 E1 0.1051 V
227RAS G LC=0.0796 12$MC=0.0192 3
227RAS G NC=0.00499 7$OC=0.001088 16$PC=0.0001704 24$QC=8.52E-6 12
227RA CG M$from ELC LE 0.07 (1987BO04). Other: (ELC + EMC) LE 2.6,
227RA2CG from G-ray intensity balance in 226RA(N,G) E=thermal (1981VO03).
227RA L 120.711 4 1/2+ 47 PS LE E
227RA B 4.9 16 7.11 15
227RAS B EAV=879.6 55
227RA G 120.709 8 1.76 19M1(+E2) 0.3 LT 8.94 24 V
227RAS G KC=7.0 3$LC=1.43 7$MC=0.347 20
227RAS G NC=0.092 6$OC=0.0207 11$PC=0.00356 14$QC=0.000260 11
227RA CG M$from EKC=6.6 13 (G-XK coin) (1981VO03), and ELC=1.0 3 (coincidence
227RA2CG measurement) (1987BO04).
227RA L 153.27512 (1/2,3/2)+
227RA B 1.00 14 7.78 7
227RAS B EAV=866.0 55
227RA G 151.553 25 0.16 2 [M1,E2] 4.79 V
227RAS G KC=3.84 6$LC=0.714 10$MC=0.1706 24
227RAS G NC=0.0450 7$OC=0.01027 15$PC=0.00179 3$QC=0.0001403 20
227RA G 153.272 15 0.14 2 [M1,E2] 4.63 V
227RAS G KC=3.72 6$LC=0.691 10$MC=0.1652 24
227RAS G NC=0.0436 7$OC=0.00994 14$PC=0.001733 25$QC=0.0001359 19
227RA L 161.051 5 3/2+ 39 PS LE E
227RA B 5.0 17 7.07 15
227RAS B EAV=862.8 55
227RA G 40.340 6 0.045 LE[M1+E2] 44.2 X S
227RAF G FLAG=W
227RAS G LC=33.5 5$MC=8.02 12
227RAS G NC=2.12 3$OC=0.483 7$PC=0.0842 12$QC=0.00663 10
227RA G 135.280 8 0.90 26[M1+E2] 6.61 V
227RAS G KC=5.31 8$LC=0.988 14$MC=0.236 4
227RAS G NC=0.0623 9$OC=0.01421 20$PC=0.00248 4$QC=0.000194 3
227RA G 159.37 5 0.28 3 [M1+E2] 4.15
227RAS G KC=3.33 5$LC=0.619 9$MC=0.1478 21
227RAS G NC=0.0390 6$OC=0.00890 13$PC=0.001551 22$QC=0.0001216 17
227RA G 161.052 13 0.54 5 M1,E2 4.03 V
227RAS G KC=3.24 5$LC=0.600 9$MC=0.1435 20
227RAS G NC=0.0378 6$OC=0.00863 12$PC=0.001505 21$QC=0.0001180 17
227RA CG M$from EKC LE 4.5 and ELC LE 0.65 (1987BO04).
227RA L 176.973 5(5/2)+ 58 PS LE E
227RA B
227RA CB IB$The intensity imbalance implies IB-=4.8 18, but the low-energy
227RA2CB decay branches from this level are not well defined
227RA G 15.922 7 0.011 LE[M1+E2] X S
227RAF G FLAG=W
227RA G 56.262 6 0.011 LE[E2] 147.5 X S
227RAF G FLAG=W
227RAS G LC=108.5 16$MC=29.4 5
227RAS G NC=7.76 11$OC=1.645 23$PC=0.236 4$QC=0.000524 8
227RA G 113.03 5 0.11 4 [M1+E2] 11.01 V
227RAS G KC=8.82 13$LC=1.655 24$MC=0.396 6
227RAS G NC=0.1044 15$OC=0.0238 4$PC=0.00415 6$QC=0.000326 5
227RA G 151.177 21 0.38 26[M1,E2] 4.82 V
227RAF G FLAG=Z
227RAS G KC=3.87 6$LC=0.719 10$MC=0.1718 24
227RAS G NC=0.0453 7$OC=0.01034 15$PC=0.00180 3$QC=0.0001413 20
227RA G 175.228 14 0.6 4 M1,E2 3.17 V
227RAS G KC=2.55 4$LC=0.472 7$MC=0.1129 16
227RAS G NC=0.0298 5$OC=0.00679 10$PC=0.001184 17$QC=9.28E-5 13
227RA CG M$EKC LE 5.6, ELC LE 0.4 and EMC LE 0.13 (1987BO04).
227RA L 284.280 5 3/2- 29 PS LE F
227RA B 0.9 LE 7.7 GE ?
227RAS B EAV=811.6 54
227RA G 107.306 4 0.75 7 E1 0.401 V
227RAS G KC=0.309 5$LC=0.0694 10$MC=0.01674 24
227RAS G NC=0.00435 6$OC=0.000950 14$PC=0.0001494 21$QC=7.59E-6 11
227RA CG M$from ELC LE 0.35 (1987BO04).
227RA G 123.17 5 0.17 2 [E1] 0.290
227RAS G KC=0.226 4$LC=0.0483 7$MC=0.01163 17
227RAS G NC=0.00303 5$OC=0.000664 10$PC=0.0001055 15$QC=5.57E-6 8
227RA G 131.0 1 0.14 2 [E1] 0.250
227RAS G KC=0.196 3$LC=0.0411 6$MC=0.00989 14
227RAS G NC=0.00258 4$OC=0.000566 8$PC=9.03E-5 13$QC=4.85E-6 7
227RA G 163.563 7 1.98 19E1 0.1462 V
227RAS G KC=0.1156 17$LC=0.0232 4$MC=0.00556 8
227RAS G NC=0.001449 21$OC=0.000320 5$PC=5.18E-5 8$QC=2.94E-6 5
227RA CG M$from EKC LE 0.5 and ELC LE 0.04 (1987BO04).
227RA G 182.394 15 0.34 4 M1+E2 0.6 3 2.3 4 V
227RAS G KC=1.7 4$LC=0.433 10$MC=0.107 5
227RAS G NC=0.0283 13$OC=0.00633 21$PC=0.001054 15$QC=6.3E-5 14
227RA CG M$from EKC=1.8 4 and ELC=0.52 10 (1987BO04).
227RA G 194.255 10 0.19 2 M1,E2 2.37 V
227RAS G KC=1.91 3$LC=0.353 5$MC=0.0843 12
227RAS G NC=0.0222 4$OC=0.00507 8$PC=0.000884 13$QC=6.93E-5 10
227RA CG M$EKC LE 3.3 ELC LE 0.7 (1987BO04).
227RA G 284.314 30 0.19 4 (E1) 0.0397 V
227RAS G KC=0.0320 5$LC=0.00588 9$MC=0.001402 20
227RAS G NC=0.000367 6$OC=8.19E-5 12$PC=1.364E-5 19$QC=8.74E-7 13
227RA CG M$EKC LE 0.5 (1987BO04).
227RA L 296.576 4 1/2- 41 PS LE F
227RA B 3.0 6 7.19 9
227RAS B EAV=806.5 54
227RA G 12.296 6 0.0025 LE[M1+E2] X S
227RAF G FLAG=W
227RAS G MC=272 4
227RAS G NC=71.9 11$OC=16.40 23$PC=2.86 4$QC=0.225 4
227RA G 135.525 5 1.3 5 (E1) 0.230 V
227RAS G KC=0.181 3$LC=0.0377 6$MC=0.00905 13
227RAS G NC=0.00236 4$OC=0.000518 8$PC=8.29E-5 12$QC=4.49E-6 7
227RA CG M$from ELC(135.5G + 135.3G)=0.3 1 either 135.5G or 135.3G must
227RA2CG be E1. Decay scheme requires E1 multipolarity for 135.5G (1987BO04).
227RA G 175.867 4 1.3 3 (E1) 0.1227 V
227RAS G KC=0.0974 14$LC=0.0192 3$MC=0.00461 7
227RAS G NC=0.001203 17$OC=0.000266 4$PC=4.33E-5 6$QC=2.50E-6 4
227RA CG M$from EKC LE 2.6, ELC LE 0.18, and EMC LE 0.06 (1987BO04).
227RA G 206.539 5 0.67 7 [M1+E2] 2.00 V
227RAS G KC=1.607 23$LC=0.297 5$MC=0.0709 10
227RAS G NC=0.0187 3$OC=0.00427 6$PC=0.000744 11$QC=5.83E-5 9
227RA G 296.7 1 0.04 2 [E1] 0.0361
227RAS G KC=0.0291 4$LC=0.00532 8$MC=0.001266 18
227RAS G NC=0.000331 5$OC=7.41E-5 11$PC=1.235E-5 18$QC=7.98E-7 12
227RA L 384.355 8 1/2+,3/2+ 21 PS LE
227RA B 1.12 22 7.56 9
227RAS B EAV=770.3 54
227RA G 263.7 1 0.06 2 [M1,E2] 1.012
227RAS G KC=0.814 12$LC=0.1498 21$MC=0.0358 5
227RAS G NC=0.00943 14$OC=0.00215 3$PC=0.000375 6$QC=2.94E-5 5
227RA G 384.348 8 2.28 19M1+E2 0.5 3 0.30 6 V
227RAS G KC=0.24 5$LC=0.047 6$MC=0.0114 13
227RAS G NC=0.0030 4$OC=0.00068 8$PC=0.000117 15$QC=8.6E-6 17
227RA CG M$from EKC=0.24 4 and ELC LE 0.08 (1987BO04).
227RA L 438.795 9 (3/2)+
227RA B 0.2016 8.3 4
227RAS B EAV=747.8 54
227RA G 348.803 25 0.10 1 [E1] 0.0252 V
227RAS G KC=0.0204 3$LC=0.00365 6$MC=0.000868 13
227RAS G NC=0.000227 4$OC=5.09E-5 8$PC=8.55E-6 12$QC=5.69E-7 8
227RA G 413.029 11 0.39 3 M1(+E2) 0.4 LT 0.280 17 V
227RAS G KC=0.225 15$LC=0.0418 18$MC=0.0100 4
227RAS G NC=0.00264 11$OC=0.00060 3$PC=0.000105 5$QC=8.1E-6 5
227RA CG M$from EKC=0.29 5 (1987BO04).
227RA G 437.071 28 0.13 2 (M1,E2) 0.255 V
227RAS G KC=0.205 3$LC=0.0373 6$MC=0.00891 13
227RAS G NC=0.00235 4$OC=0.000536 8$PC=9.34E-5 13$QC=7.33E-6 11
227RA CG M$from EKC(437.1G + 438.8G)=0.21 5 (1987BO04).
227RA G 438.768 18 0.19 3 (M1,E2) 0.252 V
227RAS G KC=0.203 3$LC=0.0370 6$MC=0.00881 13
227RAS G NC=0.00232 4$OC=0.000530 8$PC=9.24E-5 13$QC=7.25E-6 11
227RA CG M$from EKC(438.8G + 437.1G)=0.21 5 (1987BO04).
227RA L 471.567 7 3/2- 6 PS LE
227RA B 0.8 LE 7.6 GE
227RAS B EAV=734.3 54
227RA CB E$1970 KEV 240 measured in coincidence with 369.7G (1975WE23).
227RA G 187.274 35 0.09 3 [M1,E2] 2.63 V
227RAS G KC=2.12 3$LC=0.391 6$MC=0.0935 14
227RAS G NC=0.0247 4$OC=0.00563 8$PC=0.000981 14$QC=7.69E-5 11
227RA G 294.52 11 0.30 4 (E1) 0.0367 V
227RAS G KC=0.0295 5$LC=0.00541 8$MC=0.001289 18
227RAS G NC=0.000337 5$OC=7.54E-5 11$PC=1.257E-5 18$QC=8.11E-7 12
227RA CG M$E1 or E2 from EKC LE 0.06 (1987BO04). Decay scheme requires E1.
227RA G 350.85 5 0.25 2 [E1] 0.0249
227RAS G KC=0.0201 3$LC=0.00360 5$MC=0.000856 12
227RAS G NC=0.000224 4$OC=5.03E-5 7$PC=8.44E-6 12$QC=5.62E-7 8
227RA G 369.669 8 4.00 22M1(+E2) 0.2 LT 0.394 9 V
227RAS G KC=0.317 7$LC=0.0584 11$MC=0.01394 24
227RAS G NC=0.00367 7$OC=0.000838 15$PC=0.000146 3$QC=1.138E-5 25
227RA CG M$from EKC=0.34 2 and ELC=0.056 6 (1987BO04).
227RA G 381.556 15 2.54 19M1(+E2) 0.22 LT 0.361 9 V
227RAS G KC=0.290 8$LC=0.0534 10$MC=0.01275 24
227RAS G NC=0.00336 7$OC=0.000767 15$PC=0.000134 3$QC=1.04E-5 3
227RA CG M$from EKC=0.36 5 and ELC=0.067 10 (1987BO04).
227RA G 445.76 10 0.13 3 [E1] 0.01492
227RAS G KC=0.01214 17$LC=0.00211 3$MC=0.000501 7
227RAS G NC=0.0001313 19$OC=2.95E-5 5$PC=5.00E-6 7$QC=3.46E-7 5
227RA G 469.8 3 0.13 3 [E1] 0.01339
227RAS G KC=0.01091 16$LC=0.00189 3$MC=0.000447 7
227RAS G NC=0.0001171 17$OC=2.64E-5 4$PC=4.47E-6 7$QC=3.12E-7 5
227RA L 475.033 14 3/2+
227RA B 0.92 11 7.57 6
227RAS B EAV=732.9 54
227RA G 178.47 10 0.28 4 E1 0.1185
227RAS G KC=0.0940 14$LC=0.0185 3$MC=0.00444 7
227RAS G NC=0.001159 17$OC=0.000257 4$PC=4.17E-5 6$QC=2.42E-6 4
227RA CG M$from ELC LE 0.28 (1987BO04).
227RA G 321.763 25 0.12 2 M1(+E2) 0.6 LT 0.52 7 V
227RAS G KC=0.42 6$LC=0.081 6$MC=0.0195 12
227RAS G NC=0.0051 3$OC=0.00117 8$PC=0.000202 15$QC=1.50E-5 20
227RA CG M$from EKC=0.6 2 (1987BO04).
227RA G 373.122 61 0.09 2 [E1] 0.0217 V
227RAS G KC=0.01762 25$LC=0.00313 5$MC=0.000744 11
227RAS G NC=0.000195 3$OC=4.37E-5 7$PC=7.36E-6 11$QC=4.95E-7 7
227RA G 411.140 80 0.15 4 [E2] 0.0628 V
227RAF G FLAG=Z
227RAS G KC=0.0372 6$LC=0.0191 3$MC=0.00497 7
227RAS G NC=0.001312 19$OC=0.000286 4$PC=4.47E-5 7$QC=1.399E-6 20
227RA G 449.263 29 0.46 4 M1(+E2) 0.5 LT 0.218 19 V
227RAS G KC=0.175 17$LC=0.0326 21$MC=0.0078 5
227RAS G NC=0.00206 13$OC=0.00047 3$PC=8.1E-5 6$QC=6.2E-6 6
227RA CG M$from EKC=0.21 4 (1987BO04).
227RA G 473.330 64 0.17 4 [M1+E2] 0.205 V
227RAS G KC=0.1657 24$LC=0.0301 5$MC=0.00717 10
227RAS G NC=0.00189 3$OC=0.000432 6$PC=7.53E-5 11$QC=5.91E-6 9
227RA G 475.016 23 0.62 6 (M1,E2) 0.203 V
227RAS G KC=0.1642 23$LC=0.0298 5$MC=0.00711 10
227RAS G NC=0.00187 3$OC=0.000427 6$PC=7.45E-5 11$QC=5.85E-6 9
227RA CG M$from EKC AP 0.15 (1987BO04).
227RA L 523.851 9(3/2)- 20 PS LE
227RA B 6.4 4 6.69 3
227RAS B EAV=712.8 54
227RA CB E$1950 KEV 230 measured in coincidence with 433.8G (1975WE23).
227RA G 139.65 10 0.09 2 [E1] 0.214
227RAS G KC=0.1683 24$LC=0.0348 5$MC=0.00837 12
227RAS G NC=0.00218 3$OC=0.000480 7$PC=7.69E-5 11$QC=4.20E-6 6
227RA G 362.86 5 0.28 2 (E1) 0.0231
227RAS G KC=0.0187 3$LC=0.00334 5$MC=0.000793 12
227RAS G NC=0.000208 3$OC=4.66E-5 7$PC=7.83E-6 11$QC=5.24E-7 8
227RA CG M$E1 or E2 from EKC LE 0.07 (1987BO04). Decay scheme requires E1.
227RA G 403.19 10 0.42 3 E1 0.0184
227RAS G KC=0.01495 21$LC=0.00263 4$MC=0.000625 9
227RAS G NC=0.0001637 23$OC=3.68E-5 6$PC=6.21E-6 9$QC=4.23E-7 6
227RA CG M$from EKC LE 0.02 (1987BO04).
227RA G 422.0 2 0.09 2 [M1+E2] 0.280 ?
227RAS G KC=0.226 4$LC=0.0411 6$MC=0.00980 14
227RAS G NC=0.00258 4$OC=0.000589 9$PC=0.0001028 15$QC=8.06E-6 12
227RA G 433.824 9 6.4 4 M1(+E2) 0.4 LT 0.246 15 V
227RAS G KC=0.197 13$LC=0.0366 17$MC=0.0087 4
227RAS G NC=0.00231 10$OC=0.000525 23$PC=9.1E-5 5$QC=7.0E-6 5
227RA CG M$from EKC=0.22 2, ELC=0.037 6 and EMC=0.012 3 (1987BO04).
227RA G 498.4 3 0.09 2 [E1] 0.01187
227RAS G KC=0.00968 14$LC=0.001665 24$MC=0.000394 6
227RAS G NC=0.0001032 15$OC=2.33E-5 4$PC=3.95E-6 6$QC=2.79E-7 4
227RA G 523.75 10 0.15 2 [E1] 0.01074
227RAS G KC=0.00877 13$LC=0.001500 21$MC=0.000355 5
227RAS G NC=9.30E-5 13$OC=2.10E-5 3$PC=3.57E-6 5$QC=2.53E-7 4
227RA L 598.51 4 (3/2+)
227RA B 0.7016 7.59 10
227RAS B EAV=682.2 54
227RA G 159.742 41 0.09 4 [M1,E2] 4.12 V
227RAF G FLAG=Z
227RAS G KC=3.31 5$LC=0.614 9$MC=0.1469 21
227RAS G NC=0.0387 6$OC=0.00884 13$PC=0.001540 22$QC=0.0001208 17
227RA G 534.335 88 0.15 4 [E2] 0.0331 V
227RAF G FLAG=Z
227RAS G KC=0.0222 4$LC=0.00816 12$MC=0.00209 3
227RAS G NC=0.000550 8$OC=0.0001212 17$PC=1.94E-5 3$QC=8.06E-7 12
227RA G 572.71 17 0.12 3 [M1+E2] 0.1235 V
227RAF G FLAG=Z
227RAS G KC=0.0997 14$LC=0.0180 3$MC=0.00429 6
227RAS G NC=0.001131 16$OC=0.000258 4$PC=4.50E-5 7$QC=3.54E-6 5
227RA G 596.76 21 0.09 2 [M1+E2] 0.1107 V
227RAS G KC=0.0894 13$LC=0.01614 23$MC=0.00384 6
227RAS G NC=0.001013 15$OC=0.000231 4$PC=4.03E-5 6$QC=3.17E-6 5
227RA G 598.43 18 0.09 2 [M1,E2] 0.1099 V
227RAF G FLAG=Z
227RAS G KC=0.0888 13$LC=0.01602 23$MC=0.00382 6
227RAS G NC=0.001006 15$OC=0.000229 4$PC=4.00E-5 6$QC=3.15E-6 5
227RA L 675.863 7 1/2- 10 PS LE I
227RA B 48.6 20 5.677 22
227RAS B EAV=650.7 53
227RA CB E$1800 KEV 100 measured in coincidence with 585.8G (1975WE23).
227RA G 200.85 5 0.75 7 [E1] 0.0893
227RAS G KC=0.0712 10$LC=0.01376 20$MC=0.00329 5
227RAS G NC=0.000860 12$OC=0.000191 3$PC=3.12E-5 5$QC=1.86E-6 3
227RA G 204.30 1 3.7 3 M1(+E2) 0.7 LE 1.8 3
227RAS G KC=1.41 25$LC=0.303 6$MC=0.0737 12
227RAS G NC=0.0195 4$OC=0.00439 7$PC=0.000747 23$QC=5.1E-5 9
227RA CG M$ from EKC=1.5 3 (coincidence measurement),
227RA2CG ELC=0.34 4 and EMC=0.076 1 (1987BO04). Other value: EKC=1.5 3
227RA3CG (G-XK coin) (1981VO03).
227RA G 237.2 2 0.07 2 [E1] 0.0603
227RAS G KC=0.0483 7$LC=0.00911 13$MC=0.00218 3
227RAS G NC=0.000569 8$OC=0.0001266 18$PC=2.09E-5 3$QC=1.292E-6 19
227RA G 291.55 5 0.93 7 (E1) 0.0375
227RAS G KC=0.0302 5$LC=0.00554 8$MC=0.001320 19
227RAS G NC=0.000345 5$OC=7.72E-5 11$PC=1.286E-5 18$QC=8.28E-7 12
227RA CG M$E1 or E2 from EKC LE 0.18 (1987BO04). Decay scheme requires E1.
227RA2CG EKC=0.54 24, a less reliable value measured by G-XK coin, suggests
227RA2CG M1 multipolarity (1981VO03).
227RA G 379.15 10 0.12 2 M1+E0 3.0 10
227RA CG M$from EKC=2.4 8 (1987BO04).
227RA cG CC$From EKC=2.4 8 (1987BO04) and CC/KC=1.24 3 from BRICC.
227RA G 391.57 2 3.29 22M1(+E2) 0.3 LT 0.331 13
227RAS G KC=0.266 11$LC=0.0492 14$MC=0.0118 3
227RAS G NC=0.00310 8$OC=0.000707 19$PC=0.000123 4$QC=9.5E-6 4
227RA CG M$from EKC=0.29 3 and ELC LE 0.08 (1987BO04).
227RA G 514.8 2 2.4 4 E1 0.01112
227RAS G KC=0.00907 13$LC=0.001555 22$MC=0.000368 6
227RAS G NC=9.64E-5 14$OC=2.17E-5 3$PC=3.70E-6 6$QC=2.62E-7 4
227RA CG M$from EKC LE 0.01 (1987BO04).
227RA G 555.15 10 3.78 26E1 0.00957
227RAS G KC=0.00782 11$LC=0.001330 19$MC=0.000314 5
227RAS G NC=8.24E-5 12$OC=1.86E-5 3$PC=3.17E-6 5$QC=2.27E-7 4
227RA CG M$from EKC LE 0.007 (1987BO04).
227RA G 573.84 10 0.58 4 (E2) 0.0282
227RAS G KC=0.0193 3$LC=0.00659 10$MC=0.001674 24
227RAS G NC=0.000442 7$OC=9.75E-5 14$PC=1.571E-5 22$QC=6.96E-7 10
227RA CG M$E1 or E2 from EKC LE 0.025 (1987BO04). Decay scheme requires E2.
227RA G 585.804 49 37.4 19M1(+E2) 0.4 LE 0.110 7 V
227RAS G KC=0.089 6$LC=0.0162 8$MC=0.00387 18
227RAS G NC=0.00102 5$OC=0.000232 11$PC=4.05E-5 20$QC=3.15E-6 19
227RA CG M$from EKC=0.095 10, ELC=0.018 2, EMC=0.0046 8 and ENC=0.0011 5
227RA2CG (1987BO04).
227RA G 675.863 7 0.52 LE[E1] 0.00654 X S
227RAF G FLAG=W
227RAS G KC=0.00536 8$LC=0.000894 13$MC=0.000211 3
227RAS G NC=5.53E-5 8$OC=1.250E-5 18$PC=2.14E-6 3$QC=1.571E-7 22
227RA CG RI$From RI(676|g)/RI(585|g) LE 0.014 in 1996Aa01 and RI(585|g)=37.4 19
227RA2CG in 1981Vo03
227RA L 731.650 15 3/2+
227RA B 0.40 5 7.71 6
227RAS B EAV=628.0 53
227RA G 207.852 20 0.08 2 [E1] 0.0823 V
227RAF G FLAG=Z
227RAS G KC=0.0657 10$LC=0.01263 18$MC=0.00302 5
227RAS G NC=0.000789 11$OC=0.0001752 25$PC=2.87E-5 4$QC=1.727E-6 25
227RA G 347.251 18 0.26 2 M1(+E2) 0.4 LT 0.45 3 V
227RAS G KC=0.360 24$LC=0.068 3$MC=0.0162 6
227RAS G NC=0.00427 15$OC=0.00097 4$PC=0.000169 7$QC=1.29E-5 9
227RA CG M$from EKC=0.46 8 (1987BO04).
227RA G 434.92 13 0.09 3 [E1] 0.01571 V
227RAF G FLAG=Z
227RAS G KC=0.01277 18$LC=0.00223 4$MC=0.000529 8
227RAS G NC=0.0001385 20$OC=3.12E-5 5$PC=5.27E-6 8$QC=3.64E-7 5
227RA G 629.755 73 0.14 2 (E1) 0.00748 V
227RAS G KC=0.00613 9$LC=0.001029 15$MC=0.000243 4
227RAS G NC=6.37E-5 9$OC=1.439E-5 21$PC=2.46E-6 4$QC=1.79E-7 3
227RA CG M$E1 or E2 from EKC LE 0.04 (1987BO04). Decay scheme requires E1.
227RA G 641.77 11 0.09 2 [E1] 0.00721 V
227RAS G KC=0.00591 9$LC=0.000991 14$MC=0.000234 4
227RAS G NC=6.13E-5 9$OC=1.385E-5 20$PC=2.37E-6 4$QC=1.728E-7 25
227RA CG M$ELC LE 0.06 (1987BO04).
227RA L 1094.9 3 1/2,3/2
227RA B 0.28 3 7.50 5
227RAS B EAV=482.5 52
227RA G 810.4 5 0.09 2
227RA G 993.0 5 0.20 2 &
227RA G 1005.0 5 0.09 2
227RA L 1318.84 17 1/2,3/2
227RA B 0.13 3 7.56 11
227RAS B EAV=395.3 50
227RA G 795.3 5 0.09 2
227RA G 846.8 5 0.13 2
227RA G 1217.0 5 0.15 2
227RA L 1432.22 21 1/2,3/2
227RA B 0.61 4 6.74 4
227RAS B EAV=352.1 50
227RA G 908.5 5 0.07 2
227RA G 993.0 5 0.20 2 &
227RA G 1048.4 5 0.12 2
227RA G 1147.4 5 0.06 2 &
227RA G 1342.4 5 0.31 3
227RA G 1432.3 5 0.07 1
227RA L 1444.1 5 1/2,3/2
227RA B 0.074 17 7.64 11
227RAS B EAV=347.5 50
227RA G 1147.4 5 0.06 2 &
227RA G 1354.3 8 0.04 1
227RA L 1455.2 3 1/2,3/2
227RA B 0.31 3 7.00 5
227RAS B EAV=343.4 49
227RA G 983.5 5 0.05 1
227RA G 1365.1 5 0.12 2
227RA G 1455.3 5 0.25 3
227RA L 1468.14 16 1/2,3/2
227RA B 2.07 9 6.15 3
227RAS B EAV=338.5 49
227RA G 149.3 1 0.19 2
227RA G 736.9 5 0.17 2
227RA G 944.6 5 0.10 3
227RA G 993.0 5 0.20 2 &
227RA G 996.1 5 0.07 2
227RA G 1307.1 5 0.56 6
227RA G 1347.4 5 0.67 7
227RA G 1378.1 5 0.49 5
227RA G 1468.1 5 0.35 4
227RA L 1474.84 21 1/2,3/2
227RA B 0.47 4 6.79 5
227RAS B EAV=336.0 49
227RA G 743.4 5 0.08 2
227RA G 1178.2 5 0.09 2
227RA G 1190.3 5 0.08 2
227RA G 1313.7 5 0.11 2
227RA G 1384.9 5 0.24 3
227RA G 1474.9 5 0.04 1