245CM 249CF A DECAY 2015AH03,1982AH04,1997AR3123NDS 202305
245CM H TYP=FUL$AUT=C.D. Nesaraja$CIT=NDS 189, 1 (2023)$CUT=14-Feb-2023$
245CM c 2015Ah03: |a spectra from the decay {+249}Cf were measured using the
245CM2c Argonne double-focusing magnetic spectrometer in the early 1970s.
245CM3c Precise energies of |a groups in the decay of {+249}Cf were determined
245CM4c with respect to the known energy of {+250}Cf by 2015Ah03.
245CM5c Measured E|a, I|a, E(ce), I(ce), E|g, I|g, |a|g-coin, |a(ce)-coin,
245CM6c |g|g-coin using the magnetic spectrometer, passivated implanted
245CM7c planar silicon (PIPS) detector (FWHM=9.0 keV for |a and 2.3 keV for
245CM8c the electron spectrum measurements), cooled Si(Li)
245CM9c spectrometer (FWHM=1.2 keV for 100 keV electron line), and
245CMac the high-resolution low energy photon spectrometer (LEPS) detector.
245CMbc Deduced levels, J, |p, conversion coefficients for
245CMcc K- and higher shells, multipolarity, alpha branching ratios and
245CMdc hindrance factors, bands, configurations, anomalous E1 conversion
245CMec coefficients. Systematics of anomalous E1 conversion coefficients for
245CMfc E1 transitions in {+227}Ac,{+231},{+233}Pa,{+237}Np,{+239}Pu,{+243}Am,
245CMgc and {+245}Cm.
245CM c 1997Ar31 (same group as 1996Ko73 and 1996Ko29): |a decay was
245CM2c re-investigated using HPGe detectors. 43 |g lines were measured and
245CM3c the E|g and I|g were reported. Assigned 4 rotational bands and deduced
245CM4c a level scheme.
245CM c 1996Ko73: Gammas were investigated
245CM2c using high resolution coaxial and planar HPGe detectors. Energy and
245CM3c intensities of 44 |g-rays were measured.
245CM c 1996Ko29: Gammas were investigated
245CM2c using high resolution coaxial and planar HPGe detectors. Energy and
245CM3c intensities of 30 |g-rays were measured. Assigned 4 rotational bands.
245CM c 1986Ah02: {+249}Cf source was prepared at the Argonne electromagnetic
245CM2c isotope separator. I|a of |a groups measured with high precision using
245CM2c the passivated ion implanted silicon detectors.
245CM c 1982Ah04: {+249}Cf source was prepared at the Argonne electromagnetic
245CM2c isotope separator. Absolute intensities of |g-rays and K X-rays were
245CM3c measured with two high-resolution Ge detectors
245CM c 1977Ba67: |g-rays and conversion electrons were measured using a Ge
245CM2c detector and a low background |b- spectrometer. Measured E|g, I|g,
245CM3c I(ce). Determined multipolarities and defined level scheme
245CM4c from previous measurements.
245CM c 1973Ba80: |a spectrum measured with a precision magnetic |a
245CM2c spectrograph. 23 |a groups were observed for levels between
245CM3c 0.5-1.0 MeV. Gammas were measured with a Ge(Li) detector.
245CM4c Determined E|a, I|a, hindrance factor, E|g, and I|g.
245CM5c Deduced decay scheme and rotational bands.
245CM c 1971Bb10: Re-determined energies of |a group due to change in energy
245CM2c standard {+242}Cm used in the 1969Ba57 measurement. The standard used;
245CM3c E|a{-0}({+242}Cm)=6112.90 keV {I25}
245CM c 1971Sc14: {+249}Cf was produced by the |b- decay of {+249}Bk.
245CM2c Gamma ray following the |a decay of {+249}Cf was measured
245CM3c with Ge(Li) detectors. Measured |g, |g|g coin, and K x-ray
245CM c 1969Ba59: |a spectrum measured with a precision magnetic |a
245CM2c spectrograph. Sixteen |a group were observed and a level scheme was
245CM3c deduced
245CM c 1969Ba57: |a spectrum measured with a precision magnetic |a
245CM2c spectrograph. The standard used; E|a{-0}({+242}Cm)=6111.30 keV {I25}
245CM c 1966Ah02: {+249}Cf |a groups were measured by |a-singles and |a|g-
245CM2c coincidence experiments using a cooled Au-Si surface-barrier detector.
245CM3c The |a particle energies have been measured with respect to the 5805
245CM4c keV of the {+244}Cm a{-0} group. The gamma rays were measured with
245CM5c a Ge(Li) detector. Conversion electrons were measured with a
245CM6c semiconductor detector. Determined E|a, I|a, hindrance factor, E|g,
245CM7c I|g, |a|g-coin and conversion electrons. Deduced level scheme.
245CM c Others:
245CM c 1991Po17, 1990Po14, 1972Sc44, 1972Sc44, 1970Fa10, 1967Ko03, 1957St70
245CM c
245CM cA E$From 2015Ah03, except as noted. The energies were determined with
245CM2cA respect to the energy of the {+250}Cf |a{-0} group known with high
245CM3cA precision of 6030.22 keV {I20} as recommended by 1991Ry01. It is
245CM4cA however noted that the E|a from the {+249}Cf |a decay obtained by
245CM5cA 2015Ah03 is |? 2 keV lower than recommended by 1991Ry01.
245CM cA E(T)$Estimated by the evaluator from level energies populated by
245CM2cA {+249}Cf |a decay and Q|a=6293.3 keV {I5} for |a branches in 1997Ar31.
245CM cA IA$Except as noted, I|a is a combination of results from measurements
245CM2cA with the magnetic spectrometer and the passivated implanted
245CM2cA planar silicon (PIPS) detector (FWHM=9.0 keV) by 2015Ah03. Values are
245CM3cA in agreement with 1986Ah02 and 1966Ah02 but differ with the
245CM4cA 1973Ba80, 1971Bb10, and 1969Ba59 values.
245CM cA IA(T)$From 1997Ar31
245CM c
245CM tG $ -------------------------------------------------
245CM tG $ Measured x-rays intensities (1982Ah04)
245CM tG $ Energy Intensity x-ray
245CM tG $
245CM tG $ 14.95 {I4} 6.5 {I4} Cm L{-|a} x ray
245CM tG $ 19.46 {I4} 7.8 {I5} Cm L{-|b} x ray
245CM tG $ 22.79 {I4} 2.00 {I10} Cm L{-|g} x ray
245CM tG $ 104.59 {I2} 2.15 {I6} Cm K|a{-2}| x ray
245CM tG $ 109.27 {I2} 3.40 {I10} Cm K|a{-1}| x ray
245CM tG $ 122.29 {I2} 0.413 {I18} Cm K|b{-3} x ray
245CM tG $ 123.38 {I2} 0.78 {I3} Cm K|b{-1} x ray
245CM tG $ 123.97 {I4} 0.055 {I5} Cm K|b{-5} x ray
245CM tG $ 126.82 {I4}{+a} Cm K|b{-2} x ray
245CM tG $ 0.33 {I1}{+a}
245CM tG $ 127.16 {I4}{+a} Cm K|b{-4} x ray
245CM tG $ 128.00 {I3} 0.097 {I4} Cm KO{-23} x ray
245CM tG $
245CM tG $ {+a} I(x-ray) for 126.82+127.16
245CM tG $
245CM tG $ Others: 1990Po14 (relative experimental intensities of
245CM tG $ L and M x-rays.)
245CM tG $ -------------------------------------------------
245CM c
245CM cG E(Z),RI(Z)$Observed by 1973Ba80 only. These gamma rays are not listed
245CM2cG in later work of same authors (1977Ba67)
245CM cG E(X)$Weighted average of E|g data from 1982Ah04 and 1997Ar31. E|g
245CM2cG data given in comments.
245CM cG E(W),RI(W)$Weighted average of E|g data from 1982Ah04, 1997Ar31,
245CM2cG and 2015Ah03. E|g data given in comments.
245CM cG E(U),RI(U)$Weighted average of E|g data from 2015Ah03 and 1997Ar31.
245CM2cG E|g data given in comments.
245CM cG RI(P)$Weighted average of I|g data from 1982Ah04 and 2015Ah03
245CM cG E(Y),RI(Y)$From 1997Ar31. The relative intensities provided by the
245CM2cG authors (1997Ar31) in Table 1, have been multiplied by 0.660 {I20}
245CM3cG to obtain the absolute intensities
245CM cG RI(Q)$From 1982Ah04
245CM cG RI(T)$Deduced by evaluator from transition intensity balance.
245CM2cG See comment for details. Other: 0.206 {I6} (1982Ah04),
245CM3cG 0.185 {I9} (1997Ar31); the evaluator considers these values are
245CM4cG for multiple placed gammas and the intensities given are not divided
245CM cG E(V)$From 2015Ah03
245CM cG RI(v)$From 2015Ah03
245CM cG RI(R)$Weighted average of I|g data from 1982Ah04 and 1997Ar31
245CM cG M,MR$From conversion electron data in 2015Ah03, except as noted. These
245CM2cG values are given in the Adopted Gammas
245CM cG M(S)$Measured L3 conversion coefficient is consistent with theoretical
245CM2cG conversion coefficient for pure E1, but K, L1+L2, M and
245CM3cG N conversion coefficients are about two times the theoretical
245CM4cG conversion coefficients for pure E1, which indicates anomalous nature
245CM5cG of E1 conversion coefficient for this transition
245CM cL E$From least-squares fit to E|g data by the evaluator
245CM cL T,J$From Adopted Levels
245CM CL BAND(A)$|n7/2[624]
245CM CL BAND(B)$|n5/2[622]
245CM CL BAND(C)$|n9/2[734]
245CM CL BAND(D)$|n7/2[743]
245CM DG CC$FROM BrIcc v2.3e (17-Jun-2020) 2008Ki07, "Frozen Orbitals" appr.
245CM cA HF$The nuclear radius parameter r{-0}({+245}Cm)=1.4838 {I14}
245CM2cA is deduced from interpolation (or unweighted average) of radius
245CM3cA parameters of the adjacent even-even nuclides.
249CF P 0.0 9/2- 351 Y 2 6293.3 5
249CF cP J,T$From Adopted Levels in {+249}Cf (2011Ab07)
249CF cP QP$From 2021Wa16
245CM N 1.0 1.0
245CM cN NR$From absolute intensities reported in 2015Ah03, 1982Ah04,
245CM2cN and 1997Ar31
245CM PN 4
245CM G 76 ?
245CM cG E$From 1967Ko03 but its existence was considered questionable
245CM2cG by the authors. Transition was not observed in any other measurements.
245CM3cG 1971Sc14 could not confirm the gamma but noted that if present, its
245CM4cG intensity should be 10 times less than the reported I|g=0.05
245CM5cG normalized to I(388|g)=100 in 1967Ko03.
245CM G 86 1 ?
245CM cG E$From 1967Ko03 but its existence was considered questionable
245CM2cG by the authors. Transition was not observed in any other measurements.
245CM3cG 1971Sc14 could not confirm the gamma but noted that if present, its
245CM4cG intensity should be 50 times less than the reported I|g=0.24
245CM5cG (normalized to I(388|g)=100) in 1967Ko03.
245CM G 267.30 10
245CM cG $From 1977Ba67. Gamma was not reported in any other measurements.
245CM2cG I|g(266.8|g)+I|g(267.3|g)=1.01 {I4} (1977Ba67)
245CM G 358.80 5 0.01 LT
245CM cG E$From 1977Ba67 with I|g=0.0279 {I16}. Others: 1967Ko03 with I|g=0.08
245CM2cG 1971Sc14 with I|g|<0.01
245CM G 365.2 10
245CM cG E$From 1967Ko03 with I|g=0.08.
245CM2cG I|g|<0.01 was given in 1971Sc14.
245CM G 670 0.001 AP Z
245CM G 680 0.007 Z
245CM G 708.3 5 0.0002 LE Y
245CM G 718.5 3 0.0128 12
245CM G 740 AP 0.01 Z
245CM G 760 AP 0.03 Z
245CM G 770 AP 0.04 AP Z
245CM G 990 AP 0.0009 AP Z
245CM L 0.0 7/2+ 8423 Y 74 A
245CM A 6192.4 5 2.44 5 6.00E3 14
245CM L 54.784 12 9/2+ 0.10 NS LE A
245CM A 6138.5 5 1.32 3 5.94E3 15
245CM G 54.77 2 0.083 13M1+E2 1.3 +4-2 219 33 T
245CM cG E$54.77 {I3} (1997Ar31), 54.77 {I2} (1982Ah04)
245CMS G LC=159 24$MC=44 7
245CMS G NC=12.3 19$OC=3.0 5$PC=0.50 7$QC=0.0040 6
245CM cG M,MR$From E2/(M1+E2)=0.63 {I10} with |d= 1.3 {+4-2} from L x-ray
245CM2cG intensities in coincidence with 333- gamma ray with nuclear cascading
245CM3cG correction made in the L x-ray spectrum (1972Sc44).
245CM cG RI$Deduced by evaluator from intensity balance at the 54.8-keV level.
245CM L 121.574 15 11/2+ A
245CM A 6072.8 5 0.34 1 1.064E4 33
245CM G 66.80 2 0.022 12M1+E2 0.44 +6-7 39 4 X
245CMF G FLAG=R
245CM cG E$66.80 {I4} (1997Ar31), 66.80 {I2} (1982Ah04)
245CM cG RI$0.0205 {I15} (1997Ar31), 0.023 {I1} (1982Ah04)
245CM2 G EL1C+EL2C=22 3 $ EMC=7.7 10 $ ENC+EOC AP 2.6 (2015Ah03)
245CMS G LC=28.8 31$MC=7.6 9
245CMS G NC=2.10 25$OC=0.52 6$PC=0.094 10$QC=0.00357 14
245CM cG $Ice(L1+L2)=0.68% {I8}, Ice(M)=0.24% {I3}, Ice(N+O)|?0.08% (2015Ah03)
245CM G 121.60 4 0.042 6 E2 7.60 11 X
245CM cG E$121.60 {I8} (1997Ar31), 121.60 {I4} (1982Ah04)
245CM cG RI$From unweighted average of 0.0488 {I30} (1997Ar31) and
245CM2cG 0.036 {I3} (1982Ah04)
245CM2 G EL2C=3.0 4 $ EL3C=1.9 3 (2015Ah03)
245CMS G LC=5.49 8$MC=1.552 22
245CMS G NC=0.432 6$OC=0.1047 15$PC=0.01749 25$QC=8.63E-5 12
245CM cG $Ice(L2)=0.22% {I2}, Ice(L3)=0.14% {I2} (2015Ah03)
245CM L 199.8 5 13/2+ A
245CM A 5995.8 5 0.040 2 3.60E4 19
245CM L 252.838 17 5/2+ B
245CM A 5943.8 5 3.29 5 232 4
245CM G 198.1 3 0.0086 33E2 1.021 15 Y
245CMS G KC=0.1474 21$LC=0.633 10$MC=0.1774 27
245CMS G NC=0.0493 8$OC=0.01200 19$PC=0.002042 31$QC=1.827E-5 27
245CM cG M$From Adopted Levels
245CM G 252.82 3 2.55 8 M1+E2 0.16 +6-4 2.25 5 X
245CM cG M,MR$From Adopted Levels
245CMF G FLAG=R
245CM cG E$252.86 {I3} (1997Ar31), 252.80 {I2} (1982Ah04)
245CM cG RI$2.63 {I10} (1997Ar31), 2.50 {I8} (1982Ah04)
245CM cG M,MR$Other: M1+E2 with |d=0.40 {I+13-15} (1977Ba67)
245CM2 G EKC=1.70 7$ EL1C+EL2C=0.35 3 $ EMC=0.091 8 $ ENC+EOC=0.032 4 (2015Ah03)
245CMS G KC=1.76 4$LC=0.366 6$MC=0.0895 14
245CMS G NC=0.0246 4$OC=0.00626 10$PC=0.001229 20$QC=8.66E-5 21
245CM cG $Ice(K)=4.25% {I12}, Ice(L1+L2)=0.90% {I7}, Ice(M)=0.23% {I2},
245CM2cG Ice(N+O)=0.08% {I1} (2015Ah03)
245CM L 295.705 13 7/2+ B
245CM A 5901.5 5 3.17 5 143 3
245CM G 42.87 2 0.0360 15 X
245CMF G FLAG=Q
245CM cG E$42.86 {I3} (1997Ar31), 42.88 {I2} (1982Ah04)
245CM G 240.90 4 0.213 8 M1 2.63 4 R
245CM cG E$From unweighted average of 240.95 {I3} (1997Ar31) and
245CM2cG 240.86 {I2} (1982Ah04)
245CM cG RI$0.218 {I8} (1997Ar31), 0.208 {I8} (1982Ah04)
245CM2 G EKC=2.10 17 $ EL1C+EL2C=0.43 4 (2015Ah03)
245CMS G KC=2.064 29$LC=0.423 6$MC=0.1033 14
245CMS G NC=0.0284 4$OC=0.00722 10$PC=0.001421 20$QC=0.0001015 14
245CM cG $Ice(K)=0.44% {I3}, Ice(L1+L2)=0.090% {I7} (2015Ah03)
245CM G 295.73 2 0.139 5 M1+E2 0.39 +17-241.32 14 X
245CMF G FLAG=R
245CM cG E$295.74 {I3} (1997Ar31), 295.72 {I2} (1982Ah04)
245CM cG RI$0.142 {I5} (1997Ar31), 0.136 {I6} (1982Ah04)
245CM2 G EKC=1.03 9$ EL1C+EL2C=0.21 3 $ EMC=0.059 15 (2015Ah03)
245CMS G KC=1.02 12$LC=0.223 13$MC=0.0550 28
245CMS G NC=0.0151 8$OC=0.00384 20$PC=0.00075 5$QC=5.0E-5 6
245CM cG $Ice(K)=0.14% {I1}, Ice(L1+L2)=0.028% {I3}, Ice(M)=0.008% {I2}
245CM2cG (2015Ah03)
245CM L 350.64 3 9/2+ B
245CM A 5847.5 5 1.44 3 160 4
245CM G 97.8 V S
245CM cG E$The gamma was not observed. 2015Ah03 identified the L2 line from
245CM2cG the electron spectrum with Ice(L2)=0.10% {I2} (2015Ah03)
245CM G 229.20 8 0.053 4 Y
245CM L 388.170 12 9/2- 0.450 NS 20 C
245CM A 5810.5 5 82.4 3 1.756 15
245CM G 37.55 3 0.0147 7 X
245CMF G FLAG=R
245CM cG E$37.57 {I4} (1997Ar31), 37.54 {I3} (1982Ah04)
245CM cG RI$0.0145 {I8} (1997Ar31), 0.0148 {I7} (1982Ah04)
245CM G 92.51 2 0.308 18 X
245CM cG E$95.51 {I3} (2015Ah03), 92.51 {I2} (1982Ah04)
245CM cG RI$From unweighted average of 0.290 {I11} (2015Ah03) and
245CM2cG 0.326 {I10} (1982Ah04)
245CM G 266.63 2 0.707 25E1+M2 0.076 +7-8 0.094 8 X
245CMF G FLAG=R
245CM cG E$266.66 {I3} (1997Ar31), 266.62 {I2} (1982Ah04)
245CM cG RI$0.726 {I26} (1997Ar31), 0.690 {I25} (1982Ah04)
245CM2 G EKC=0.068 5$ EL1C+EL2C=0.020 5 (2015Ah03)
245CMS G KC=0.069 5$LC=0.0183 18$MC=0.0046 5
245CMS G NC=0.00128 13$OC=0.000323 34$PC=6.1E-5 7$QC=3.7E-6 4
245CM cG $Ice(K)=0.045% {I3}, Ice(L1+L2)=0.014% {I3} (2015Ah03)
245CM G 333.37 2 14.8 4 (E1) 0.0348 5 X
245CMF G FLAG=RS
245CM cG E$333.37 {I3} (1997Ar31), 333.37 {I2} (1982Ah04)
245CM cG RI$15.3 {I6} (1997Ar31), 14.6 {I4} (1982Ah04)
245CM cG M,MR$Other: E1+M2 with |d=0.084 {I+14-18} (1977Ba67)
245CM2 G EKC=0.050 4$ EL1C+EL2C=0.010 1 $ EL3C=0.00064 7 (2015Ah03)
245CM2 G EMC=0.0031 3 $ ENC+EOC=0.00100 9 (2015Ah03)
245CMS G KC=0.0274 4$LC=0.00553 8$MC=0.001347 19
245CMS G NC=0.000367 5$OC=9.20E-5 13$PC=1.726E-5 24$QC=9.91E-7 14
245CM cG $Ice(K)=0.73% {I5}, Ice(L1+L2)=0.15% {I1}, Ice(L3)=0.009% {I1},
245CM2cG Ice(M)=0.045% {I4}, Ice(N+O)=0.014% {I1} (2015Ah03)
245CM G 388.15 2 66.0 20(E1) 0.0254 4 X
245CMF G FLAG=RS
245CM cG E$388.13 {I3} (1997Ar31), 388.16 {I2} (1982Ah04)
245CM cG RI$66.0 {I20} (1997Ar31), 66.0 {I20} (1982Ah04)
245CM cG M,MR$Other: E1+M2 with |d=0.13 {I+1-2} (1977Ba67)
245CM2 G EKC=0.042 2$ EL1C+EL2C=0.0097 8 $ EL3C=0.000360 45 (2015Ah03)
245CM2 G EMC=0.0026 3 $ ENC+EOC=0.00100 13 (2015Ah03)
245CMS G KC=0.02012 28$LC=0.00396 6$MC=0.000962 13
245CMS G NC=0.000263 4$OC=6.59E-5 9$PC=1.244E-5 17$QC=7.38E-7 10
245CM cG $Ice(K)=2.95% {I10}, Ice(L1+L2)=0.64% {I5}, Ice(L3)=0.025% {I3},
245CM2cG Ice(M)=0.17% {I2}, Ice(N+O)=0.065% {I8} (2015Ah03)
245CM L 416.59 4 11/2+ B
245CM A 5782.4 5 0.35 1 289 9
245CM G 65.95 2 0.0077 7 &
245CMF G FLAG=RX
245CM cG E$65.91 {I5} (1997Ar31), 65.96 {I2} (1982Ah04)
245CM cG RI$0.0073 {I7} (1997Ar31), 0.0082 {I8} (1982Ah04)
245CM L 442.892 20 11/2- C
245CM A 5756.9 5 4.68 7 15.5 3
245CM G 54.77 2 0.0381 26 M1+E2 0.63 4 121 8 T
245CM cG E$54.77 {I3} (1997Ar31), 54.77 {I2} (1982Ah04)
245CMF G FLAG=X
245CM cG M,MR$From conversion electron data measured in coincidence
245CM2cG with |a particles with energies below the 5810.5 keV (2015Ah03).
245CM3cG Other:|d=0.69 {I+16-15} from L x-ray
245CM2cG intensities in coincidence with 388-keV gamma ray (1972Sc44). Note
245CM3cG the evaluator did not include this value as the authors in 1972Sc44
245CM4cG were not able correct for nuclear cascading in the L x-ray spectrum.
245CM2 G EL1C+EL2C=60 4 $ EL3C=28 2 $ EMC=25 2 $ ENC+EOC=7.8 10 (2015Ah03)
245CM cG RI$Deduced by evaluator from intensity balance at the 442.9-keV level.
245CMS G LC=88 5$MC=24.1 16
245CMS G NC=6.7 4$OC=1.64 10$PC=0.280 17$QC=0.00582 16
245CM cG $Ice(L1+L2)=12.3% {I9}, Ice(L3)=5.7% {I4}, Ice(M)=5.1% {I4},
245CM2cG Ice(N+O)=1.6% {I2} (2015Ah03)
245CM G 321.25 3 0.065 3 [E1] 0.0376 5 X
245CMF G FLAG=R
245CMS G KC=0.0296 4$LC=0.00601 8$MC=0.001464 20
245CMS G NC=0.000399 6$OC=0.0001000 14$PC=1.872E-5 26$QC=1.066E-6 15
245CM cG E$321.26 {I3} (1997Ar31), 321.24 {I3} (1982Ah04)
245CM cG RI$0.0680 {I33} (1997Ar31), 0.063 {I3} (1982Ah04)
245CM L 495.8 5 13/2+ B
245CM A 5704.6 10 0.048 3 770 49
245CM L 508.84 3 13/2- C
245CM A 5692.3 5 0.29 1 108 4
245CM G 65.95 2 0.0077 5 &
245CMF G FLAG=RX
245CM cG E$65.91 {I5} (1997Ar31), 65.96 {I2} (1982Ah04)
245CM cG RI$0.0073 {I7} (1997Ar31), 0.0082 {I8} (1982Ah04)
245CM L 554.7 3 (11/2+)
245CM cL $Configuration=1/2[631]
245CM A 5647.0 10 0.0026 4 6.6E3 11
245CM G 259.0 3 0.0073 20 Y
245CM L 585.4 5 15/2- C
245CM A 5616.4 5 0.022 1 523 25
245CM L 643.632 19 7/2- D
245CM A 5559.3 5 0.115 5 46.2 21 C
245CM G 255.47 3 0.032 3 M1(+E2) 0.19 23 2.17 21 W
245CM2 G EKC=1.7 2$ EL1C+EL2C=0.34 9 (2015Ah03)
245CMS G KC=1.69 19$LC=0.354 17$MC=0.0867 33
245CMS G NC=0.0238 9$OC=0.00606 24$PC=0.00119 6$QC=8.3E-5 9
245CM cG $Ice(K)=0.060% {I6}, Ice(L1+L2)=0.012% {I3} (2015Ah03)
245CM cG E$255.54 {I7} (2015Ah03), 255.56 {I8} (1997Ar31),
245CM2cG 255.45 {I3} (1982Ah04)
245CM cG RI$0.035 {I3} (2015Ah03), 0.0343 {I28} (1997Ar31),
245CM2cG 0.026 {I3} (1982Ah04)
245CM G 347.8 3 0.0035 5 V
245CMF G FLAG=v
245CM G 390.84 5 0.0166 17 X
245CMF G FLAG=P
245CM cG E$390.8 {I1} (2015Ah03), 390.8 {I3} (1997Ar31),
245CM2cG 390.85 {I5} (1982Ah04)
245CM cG RI$0.016 {I2} (2015Ah03), 0.0170 {I17} (1982Ah04)
245CM G 588.79 4 0.00053 4 Y
245CM G 643.64 3 0.0071 4 Y
245CM L 674.2 17/2- C
245CM A 5529.0 10 0.0022 3 1.60E3 22
245CM L 701.831 20 9/2- D
245CM A 5502.0 5 0.044 2 55 3 C
245CM G 259.15 7 0.0085 9 M1 2.143 30 V
245CMF G FLAG=v
245CM2 G EKC=1.8 4 $ EL1C+EL2C AP 0.5 (2015Ah03)
245CMS G KC=1.684 24$LC=0.344 5$MC=0.0842 12
245CMS G NC=0.02311 32$OC=0.00589 8$PC=0.001158 16$QC=8.26E-5 12
245CM cG $Ice(K)=0.015% {I3}, Ice(L1+L2)|? 0.004 (2015Ah03)
245CM G 314.0 3 0.0029 6 V
245CMF G FLAG=v
245CM G 405.93 6 0.0048 3 U
245CM cG E$405.8 {I2} (2015Ah03), 405.94 {I6} (1997Ar31)
245CM cG RI$0.051 {I5} (2015Ah03), 0.00469 {I30} (1997Ar31)
245CM G 580.27 9 0.00017 2 Y
245CM G 647.04 3 0.00158 8 Y
245CM G 701.84 3 0.00099 9 Y
245CM L 736.3 5
245CM A 5467.7 7 0.00008 18908 T
245CM G 483.5 5 0.0001 LT &
245CMF G FLAG=Y
245CM L 771.85 4 (11/2-) D
245CM A 5432.8 5 0.0103 7 90 7
245CM G 356 1 0.014 LE Y
245CM G 421.0 3 0.00073 7 Y
245CM G 650.30 5 0.00022 2 Y
245CM G 717.04 5 0.00031 2 Y
245CM L 774.3 7
245CM cL $J|p=(11/2-) reported by 1997Ar31
245CM A 5430.3 8 0.00002 44756 T
245CM G 652.7 7 0.00020 7 Y
245CM L 785.22 8 (9/2+)
245CM cL $Configuration=7/2-[613]
245CM A 5419.6 5 0.00014 5493 T
245CM G 663.65 8 0.00012 1 Y
245CM L 841.1 5
245CM A 5364.6 7 0.000074 4745 T
245CM G 841.1 5 0.0000071 Y
245CM L 849.2 3
245CM A 5356.7 6 0.0001 3131 T
245CM G 596.1 3 0.00008613 Y
245CM G 849.9 5 0.0000122 &
245CMF G FLAG=Y
245CM L 852.58 10 (13/2-) D
245CM A 5353.3 10 0.0020 3 149 23
245CM G 731.0 1 6.6E-5 7 Y
245CM G 798.0 5 1.3E-5 2 Y
245CM L 890.61 9 (9/2+)
245CM A 5315.9 5 0.000025 6938 T
245CM G 890.61 9 2.3E-5 2 Y
245CM L 900.1 5
245CM A 5306.6 7 0.00008 1892 T
245CM G 483.5 5 0.0001 LT &
245CMF G FLAG=Y
245CM L 906.6 5
245CM A 5300.2 7 0.000007 19690 T
245CM G 906.6 5 7.3E-6 13 Y
245CM L 971.379 21 (7/2+,9/2+)
245CM A 5236.2 10 0.0015 3 36 8
245CM G 718.50 3 0.00058 4 Y
245CM G 849.9 5 0.0000122 &
245CMF G FLAG=Y
245CM G 916.63 3 0.00020 1 Y
245CM G 971.38 4 0.00119 8 Y
245CM L 1054.7 8
245CM A 5154.5 9 0.000002 7787 T
245CM G 1054.7 8 2.0E-6 13 Y
245CM L 1102.3 5
245CM A 5107.6 7 0.000003 2524 T
245CM G 1102.3 5 3.3E-6 13 Y