76KR 76RB EC+B+ DECAY (36.5 S) 2005GI17,1985PI08,1984MO2224NDS 202401
76KR H TYP=FUL$AUT=Balraj Singh, Jun Chen and Ameenah R. Farhan$
76KR2 H CIT=NDS 194, 3 (2024)$CUT=8-Jan-2024$
76KR DG CC$FROM BrIcc v2.3e (17-Jun-2020) 2008Ki07, "Frozen Orbitals" appr.
76KR DE EAV,LOGFT$FROM BetaShape v2.3.1 (Dec-2023) 2023MO21.
76KR c 2005Gi17: {+76}Rb isotope produced in spallation reaction on a Nb
76KR2c target with a 1 GeV proton beam at ISOLDE isotopic mass separator.
76KR3c Measured E|g, I|g, |g|g, |b|g|g coin, lifetimes by |b|g|g(t), ce.
76KR4c Deduced levels, J, |p, conversion coefficients, multipolarities,
76KR5c |g branching ratios.
76KR c 1984Mo22 (also 1982Mo10): measured E|g, I|g, |g|g- and |b{++}|g-coin,
76KR2c mass-separated source
76KR c 1985Pi08: measured E|g, I|g, |g|g-coin
76KR c Others:
76KR c 2013Pe13: Gamow-Teller strength distributions B(GT) deduced from
76KR2c total absorption spectrometer (TAS) system.
76KR3c {+76}Rb nuclei produced from |e decay of {+76}Sr and by spallation
76KR4c reaction Nb(p,X), E(p)=1.4 GeV proton beam from PS Booster on Nb
76KR5c target of 52 g/cm{+2} at ISOLDE-CERN facility. The reaction products
76KR6c from the spallation were ionized in a surface ionization source,
76KR7c separated by HRS and GPS separators at ISOLDE, then implanted onto a
76KR8c 55|mm thick aluminized mylar tape to be inserted into the spectrometer.
76KR9c Measured |g radiation in singles and coincidence modes using the total
76KRAc absorption spectrometer (TAS) Lucrecia consisting of a 38 cm x 38 cm
76KRBc cylindrical single NaI(Tl) crystal covering a solid angle of |?4|p,
76KRCc with a transverse hole of 7.5 cm diameter for placement of additional
76KRDc detectors; a |b scintillation counter, and a Ge telescope for detection
76KREc of x rays and |g rays in coincidence modes. Deduced |e+|b{++} feedings,
76KRFc pseudo-levels, Gamow-Teller strength distributions. Comparison with
76KRGc quasiparticle random-phase approximation calculations
76KR c |g, |g|g-coin: 1975Bo52, 1975We23
76KR c |g|g(|q): 1978LiZU
76KR c |b{++}|g-coin: 1983Li11, 1976DaYR, 1975We23
76KR c Q(|e): 1993Al03 (by total |g absorption), 1983Li11 (|b{++}|g-coin),
76KR2c 1982Mo10 (|b{++})
76KR c {+76}Rb production and T{-1/2}({+76}Rb): 1993Al03, 1979No07, 1979Lu07,
76KR2c 1979De43, 1975Ra03, 1975Bo52, 1974DeXQ, 1972Ve02, 1969Ch18
76KR cE TI$Feedings for levels up to 3672.1 keV, and at 40-keV interval above
76KR2cE this energy are deduced by 2013Pe13 using an iterative Expectation-
76KR3cE Maximization (EM) method. Feedings below 0.0001% are set to zero.
76KR4cE Total |e+|b{++} feeding in Table IV of 2013Pe13 adds to 95.9% {I21}.
76KR5cE Large range of uncertainties reported from (a) deformation
76KR6cE assumptions for unknown level scheme calculations; (b) strength
76KR7cE function parameterization; (c) assumptions of position of last (cutoff)
76KR8cE level; (d) uncertainties in subtracting contaminants; and
76KR9cE (e) statistical uncertainty in feeding distribution. Uncertainties
76KRAcE listed here are deduced by evaluators as averages between upper and
76KRBcE lower uncertainties quoted by 2013Pe13.
76KRCcE Total feedings deduced by evaluators here for discreet energy levels
76KRDcE are from |g intensity balances, the values given by 2005Gi17 are
76KREcE somewhat different and are listed under comments. Corresponding values
76KRFcE from TAS spectral analysis in 2013Pe13 are not in agreement in many
76KRGcE cases
76KR cE TI(Z)$TAS data in 2013Pe13 are consistent with zero |b{++}+|e feeding
76KR cG $The following |g rays with energy (intensity) reported only by
76KR2cG 1975We23 are discarded since these are not confirmed in any
76KR3cG of the later studies: 64 (2.3), 244 (2.3), 254 (2.0), 869 (2.2),
76KR4cG 937 (2.5). Also an unplaced 1120.8 {I3} |g with I|g=0.7 {I2} in
76KR5cG 1984Mo22 is omitted here since it is not reported by 2005Gi17
76KR cG $Experimental conversion coefficients given under comments are from
76KR2cG 2005Gi17.
76KR cG E(X),RI(X)$From 2005Gi17, new transition reported
76KR cG E(Y),RI(Y)$From weighted average of values from 1984Mo22 and 1985Pi08,
76KR2cG except that 2350.9, 2392.8, 2816.6 and 2600.2 |g rays were reported
76KR3cG only by 1984Mo22. These are confirmed in 2005Gi17.
76KR2cG 2005Gi17 quote E|g values listed without uncertainties from 1995-NDS
76KR3cG (1995Si03). The I|g values have been adjusted here to 100 for 424.0|g.
76KR4cG Branching ratios, determined independently by 2005Gi17 from |g|g data,
76KR5cG are listed under comments, and used in Adopted dataset
76KR cG M,MR$From Adopted Gammas, unless otherwise stated. The ce data in
76KR2cG this decay are also used to assign multipolarities and mixing ratios
76KR cG M(Z),MR(z)$Assigned by evaluators from |a(K)exp value of 2005Gi17
76KR cL E$From a least-squares fit to E|g data
76KR cL E(A)$New level reported by 2005Gi17
76KR cL E(P)$Pseudo level based on TAS results in 2013Pe13, a group at 8540
76KR2cL with |e feeding of 0.002% {I11} is omitted here since it is above
76KR3cL the Q(|e) value. This group is not included in Adopted dataset
76KR cL T$From |b|g(t) (2005Gi17)
76KR cL J$From Adopted Levels
76RB P 0.0 1- 36.5 S 6 8535 4
76RB cP J,T$From {+76}Rb Adopted Levels
76RB cP QP$From 2021Wa16.
76RB2cP Measured Q(|e)=8250 {I150} (1993Al03), 8094 {I162} (1983Li11),
76RB3cP 8063 {I44} (1982Mo10).
76KR N 0.438 14 0.438 14 1 1
76KR cN NR$Summed transition intensity to g.s.=100, assuming no direct |b+,|e
76KR2cN feeding to g.s. This assumption is supported by systematics of
76KR3cN log| {Ift} values in A=76 nuclides: log| {Ift}>6 for 0+
76KR4cN to 1- |b transition in {+76}Kr to {+76}Br decay and >8.9 for 1- to
76KR5cN 0+ |b transition in {+76}Br to {+76}Se nuclei
76KR PN 3
76KR L 0.0 0+
76KR L 424.05 7 2+
76KR E Z ?
76KR cE TI$2005Gi17 give 0.8, evaluators obtain -4 {I2}
76KR G 424.0 1 100 4 E2 0.00535 8 YC
76KRF G FLAG=Z
76KRS G KC=0.00473 7$LC=0.000529 7$MC=8.55E-5 12
76KRS G NC=8.46E-6 12
76KR2 G %IG=43.8 13
76KR L 769.94 9 0+ 42 PS 6
76KR CL J$from (346G)(424G)(|q) (1978LiZU)
76KR E 0.49752 LT0.002483LT7.9 GT 0.5 LTZ ?
76KRS E EAV=3142.5 19$CK=0.004363 33$CL=4.95E-4 4$CM+=1.091E-4 10
76KR cE TI$0.7 (2005Gi17)
76KR G 345.9 1 13.2 4 E2 0.0104515 YC
76KR2 G EKC=0.0093 3
76KRS G KC=0.00922 13$LC=0.001049 15$MC=0.0001696 24
76KRS G NC=1.666E-5 23
76KR2 G %IG=5.78 25
76KR G 770 (E0) 0.035
76KR cG $|r{+2}(E0,0+ to 0+)=0.079 {I11}; X(E0/E2)=0.020 {I1} (2005Gi17)
76KR cG TI$Ice(K)=0.029 relative to I|g(424|g)=100 (2005Gi17). Evaluators
76KR2cG have added 20% to this value to account for intensity from L, M and
76KR3cG higher shells.
76KR L 1034.75 9 4+
76KR E 0.98 LT 0.02 LT 11.6 GT 1 LTZ ?
76KRS E EAV=3008.8 19$CK=0.01758 14$CL=0.002007 16$CM+=4.43E-4 4
76KR cE TI$0.5 (2005Gi17). The feeding is considered as questionable since
76KR2cE log| {Ift} is too low to be realistic for |DJ=3, |D|p=yes |b transition
76KR G 610.6 1 4.0 2 E2 1.77E-3 3 YC
76KRS G KC=0.001570 22$LC=0.0001716 24$MC=2.78E-5 4
76KRS G NC=2.77E-6 4
76KR2 G %IG=1.75 10
76KR L 1221.72 7 2+
76KR E 1.4 50.0085 307.29 +20-14 1.4 5Z
76KRS E EAV=2923.3 19$CK=0.00532 4$CL=6.03E-4 5$CM+=1.330E-4 12
76KR cE TI$1.5 (2005Gi17)
76KR G 797.6 1 9.9 3 M1+E2 +0.2 1 YC
76KR2 G %IG=4.34 19
76KR cG M$M1, E2 from ce data; |DJ=1, D+Q in ({+12}C,2n|g)
76KR2 G EKC=0.00073 5
76KRS G CC=0.000755 12$KC=0.000671 10$LC=7.12E-5 11$MC=1.153E-5 18
76KRS G NC=1.168E-6 18
76KR G 1221.6 1 7.6 5 YC
76KR2 G %IG=3.33 23
76KR cG $I|g(1221.6|g)/I|g(797.6|g)=69 {I4}/100 {I3} (2005Gi17)
76KR L 1598.07 8 (0)+ 4.7 PS LT
76KR E 0.35 220.0025 167.8 +4-2 0.35 22Z
76KRS E EAV=2741.4 19$CK=0.00635 5$CL=7.20E-4 6$CM+=1.588E-4 15
76KR cE TI$0.09 (2005Gi17)
76KR G 376.4 1 0.5 1 E2 0.0078811 YC
76KR2 G EKC=0.0050 14
76KRS G KC=0.00696 10$LC=0.000786 11$MC=0.0001271 18
76KRS G NC=1.252E-5 18
76KR2 G %IG=0.22 5
76KR cG $I|g(376.4|g)/I|g(1174.0|g)=8.1 {I4}/100 {I3} (2005Gi17)
76KR G 828 (E0) 0.00024
76KR cG E$possible 813.9 {I3} K-conversion line in electron spectrum
76KR2cG which may be E0 transition to 770, 0+ level
76KR cG $|r{+2}(E0,0+ to 0+)>0.007; X(E0/E2)=0.15 {I3} for 376|g, 0.009 {I3}
76KR2cG for 1174|g (2005Gi17)
76KR cG TI$Ice(K)=0.0002 relative to I|g(424|g)=100 (2005Gi17). Evaluators
76KR2cG have added 20% to this value to account for intensity from L, M and
76KR3cG higher shells.
76KR G 1174.0 1 6.1 2 E2 YC
76KRF G FLAG=Z
76KR2 G EKC=0.000311 19
76KRS G CC=0.000350 5$KC=0.000306 4$LC=3.25E-5 5$MC=5.26E-6 7
76KRS G NC=5.31E-7 7$IPC=5.02E-6 7
76KR2 G %IG=2.67 12
76KR L 1687.32 8 2+ 0.326 PS 35
76KR E 1.5 60.011 57.10 +23-15 1.5 6Z
76KRS E EAV=2698.4 19$CK=0.00663 5$CL=7.52E-4 6$CM+=1.659E-4 16
76KR cE TI$1.7 (2005Gi17)
76KR G 466.0 3 0.5 2 YC
76KR2 G %IG=0.22 9
76KR cG $I|g(466.0|g)/I|g(917.4|g)=4.6 {I16}/100 {I6}
76KR G 652.6 1 0.5 1 [E2] 1.47E-3 2 YC
76KRS G KC=0.001303 18$LC=0.0001419 20$MC=2.296E-5 32
76KRS G NC=2.297E-6 32
76KR2 G %IG=0.22 5
76KR cG $I|g(652.6|g)/I|g(917.4|g)=9.2 {I3}/100 {I6}
76KR G 917.4 1 8.2 10 [E2] YC
76KRS G CC=0.000608 9$KC=0.000540 8$LC=5.79E-5 8$MC=9.37E-6 13
76KRS G NC=9.42E-7 13
76KR2 G %IG=3.6 5
76KR G 1263.2 2 2.1 1 M1,E2 YC
76KRF G FLAG=Z
76KR2 G EKC=0.00028 3
76KRS G CC=0.000308 7$KC=0.000258 5$LC=2.73E-5 6$MC=4.42E-6 9
76KRS G NC=4.47E-7 9$IPC=1.73E-5 23
76KR2 G %IG=0.92 5
76KR cG $I|g(1263.2|g)/I|g(917.4|g)=21.2 {I7}/100 {I6}
76KR G 1687.1 2 3.2 2 [E2] YC
76KRS G CC=0.000327 5$KC=0.0001454 20$LC=1.531E-5 21$MC=2.476E-6 35
76KRS G NC=2.506E-7 35$IPC=0.0001633 23
76KR2 G %IG=1.40 10
76KR cG $I|g(1687.1|g)/I|g(917.4|g)=28.8 {I10}/100 {I6}
76KR L 1733.26 10 3+
76KR E 0.82 190.0137 319.26 +12-10 0.83 19Z1U
76KRS E EAV=2668.9 19$CK=0.01452 12$CL=0.001653 13$CM+=3.65E-4 3
76KR cE TI$0.6 (2005Gi17).
76KR G 511.6 2 0.5 3 XC
76KR2 G %IG=0.22 13
76KR cG $I|g(511.6|g)/I|g(1309.3|g)=20 {I12}/100 {I4}
76KR G 698.4 1 0.21 2 M1,E2 0.0011111 XC
76KRF G FLAG=Z
76KR2 G EKC=0.0014 6
76KRS G KC=0.00099 10$LC=0.000106 11$MC=1.72E-5 18
76KRS G NC=1.73E-6 18
76KR2 G %IG=0.092 9
76KR cG $I|g(698.4|g)/I|g(1309.3|g)=8.7 {I8}/100 {I4}
76KR G 1309.3 1 2.9 2 M1+E2 +0.38 4 YC
76KRF G FLAG=Z
76KR2 G EKC=0.00022 4
76KRS G CC=0.000296 7$KC=0.000240 4$LC=2.53E-5 5$MC=4.10E-6 8
76KRS G NC=4.15E-7 7$IPC=2.64E-5 34
76KR2 G %IG=1.27 10
76KR L 2091.49 10 (2)+ 34 PS LT
76KR E 0.49 120.0045 117.44 +13-10 0.49 12
76KRS E EAV=2503.4 19$CK=0.00815 7$CL=9.25E-4 8$CM+=2.040E-4 19
76KR cE TI$0.8 (2005Gi17), 0.000743 {I14} (2013Pe13)
76KR G 403.9 3 0.3 1 Y
76KR2 G %IG=0.13 5
76KR cG $I|g(403.9|g)/I|g(1321.6|g)=20.7 {I11}/100 {I3}
76KR G 493.4 1 0.21 7 XC
76KR2 G %IG=0.092 31
76KR cG $I|g(493.4|g)/I|g(1321.6|g)=14 {I5}/100 {I3}
76KR G 870 M1,E2 Z ?
76KR2 G EKC=0.0009 2
76KRS G CC=0.00066 4$KC=0.000584 32$LC=6.2E-5 4$MC=1.01E-5 6
76KRS G NC=1.02E-6 6
76KR cG E$from 2005Gi17 only, listed only in authors' table III,
76KR2cG intensity or branching ratio is not available. Transition also not
76KR3cG shown in authors' level scheme figure. The evaluators treat
76KR4cG this transition as uncertain
76KR G 1321.6 3 1.6 1 (E2) YC
76KR2 G EKC=0.00024 5
76KRS G CC=0.000300 4$KC=0.0002376 33$LC=2.515E-5 35$MC=4.07E-6 6
76KRS G NC=4.11E-7 6$IPC=3.27E-5 5
76KR2 G %IG=0.70 5
76KR cG M$|a(K)exp from 2005Gi17 gives M1,E2; |DJ|p requires E2
76KR G 1667.6 3 0.8 2 Y
76KR2 G %IG=0.35 9
76KR cG $I|g(1667.6|g)/I|g(1321.6|g)=78.7 {I6}/100 {I3}
76KR L 2104.33 9 1- 16 PS 5
76KR E 5.6 50.053 56.37 5 5.7 5
76KRS E EAV=2497.2 19$CK=0.00821 7$CL=9.31E-4 8$CM+=2.053E-4 20
76KR cE TI$5.5 (2005Gi17), 0.0098 {I3} (2013Pe13)
76KR G 417.1 1 0.22 2 [E1] 1.53E-3 2 XC
76KRS G KC=0.001362 19$LC=0.0001447 20$MC=2.338E-5 33
76KRS G NC=2.349E-6 33
76KR2 G %IG=0.096 9
76KR cG $I|g(417.1|g)/I|g(1680.3|g)=2.0 {I2}/100 {I3}
76KR G 506.0 9 0.8 3 [E1] XC
76KRS G CC=0.000944 14$KC=0.000839 12$LC=8.89E-5 13$MC=1.437E-5 21
76KRS G NC=1.446E-6 21
76KR2 G %IG=0.35 13
76KR cG $I|g(506.0|g)/I|g(1680.3|g)=7 {I3}/100 {I3}
76KR G 882.4 2 2.4 5 [E1] XC
76KRS G CC=0.000273 4$KC=0.0002430 34$LC=2.56E-5 4$MC=4.13E-6 6
76KRS G NC=4.17E-7 6
76KR2 G %IG=1.05 22
76KR cG E$882.4 {I5} with no I|g value in 1985Pi08
76KR cG $I|g(882.4|g)/I|g(1680.3|g)=22 {I5}/100 {I3}
76KR G 1334.4 3 0.8 3 [E1] YC
76KRS G CC=0.000261 4$KC=0.0001124 16$LC=1.177E-5 16$MC=1.902E-6 27
76KRS G NC=1.926E-7 27$IPC=0.0001343 19
76KR2 G %IG=0.35 13
76KR cG $I|g(1334.4|g)/I|g(1680.3|g)=7.0 {I3}/100 {I3}
76KR G 1680.3 2 12.8 6 E1 YC
76KRF G FLAG=Z
76KR2 G EKC=0.000056 13
76KRS G CC=0.000478 7$KC=7.68E-5 11$LC=8.01E-6 11$MC=1.295E-6 18
76KRS G NC=1.312E-7 18$IPC=0.000391 5
76KR2 G %IG=5.61 32
76KR G 2104.3 5 2.9 3 [E1] Y
76KRS G CC=0.000761 11$KC=5.43E-5 8$LC=5.66E-6 8$MC=9.14E-7 13
76KRS G NC=9.27E-8 13$IPC=0.000700 10
76KR2 G %IG=1.27 14
76KR cG $I|g(2104.3|g)/I|g(1680.3|g)=16.0 {I5}/100 {I3}
76KR L 2140.16 16 (1,2+) A
76KR E 0.49 180.0047 177.43 +21-14 0.49 18
76KRS E EAV=2479.8 19$CK=0.00836 7$CL=9.49E-4 8$CM+=2.092E-4 20
76KR cE TI$0.6 (2005Gi17), 0.000672 {I20} (2013Pe13)
76KR G 918.5 7 1.2 4 XC
76KR2 G %IG=0.53 18
76KR G 2140.5 2 0.31 3 X
76KR2 G %IG=0.136 14
76KR cG $I|g(2140.5|g)/I|g(918.5|g)=26 {I3}/100 {I33}
76KR L 2192.50 12 A
76KR E 0.228 300.00225 297.73 +7-6 0.23 3
76KRS E EAV=2454.8 19$CK=0.00860 7$CL=9.76E-4 8$CM+=2.153E-4 21
76KR cE TI$0.3 (2005Gi17), 0.12 {I20} (2013Pe13)
76KR G 1768.4 2 1.07 6 XC
76KR2 G %IG=0.469 30
76KR L 2227.28 9 2- 25 PS 6
76KR E 6.9 40.070 46.238 +34-33 7.0 4
76KRS E EAV=2437.9 19$CK=0.00877 7$CL=9.94E-4 8$CM+=2.194E-4 21
76KR cE TI$6.9 (2005Gi17), 0.013 {I2} (2013Pe13)
76KR G 493.8 7 0.7 2 [E1] 1.00E-3 1 XC
76KRS G KC=0.000890 13$LC=9.44E-5 14$MC=1.526E-5 22
76KRS G NC=1.535E-6 22
76KR2 G %IG=0.31 9
76KR cG $I|g(493.8|g)/I|g(1803.2|g)=6.4 {I18}/100 {I3}
76KR G 540.0 1 0.24 2 [E1] XC
76KRS G CC=0.000806 11$KC=0.000717 10$LC=7.59E-5 11$MC=1.227E-5 17
76KRS G NC=1.235E-6 17
76KR2 G %IG=0.105 10
76KR cG $I|g(540.0|g)/I|g(1803.2|g)=2.2 {I2}/100 {I3}
76KR G 1005.5 1 2.4 2 [E1] YC
76KRS G CC=0.0002113 30$KC=0.0001881 26$LC=1.975E-5 28$MC=3.19E-6 4
76KRS G NC=3.23E-7 5
76KR2 G %IG=1.05 10
76KR cG $I|g(1005.5|g)/I|g(1803.2|g)=19.1 {I6}/100 {I3}
76KR G 1803.2 1 12.7 8 E1(+M2) 0.33 +18-33 YC
76KR2 G EKC=0.000088 18
76KRS G CC=0.000540 23$KC=8.6E-5 19$LC=9.0E-6 20$MC=1.45E-6 32
76KRS G NC=1.47E-7 33$IPC=0.00044 4
76KR2 G %IG=5.6 4
76KR L 2257.54 9 3- 5.7 PS LT
76KR E 1.08 LT 0.02 LT 8.9 GT 1.1 LT ?
76KRS E EAV=2419.7 19$CK=0.01935 16$CL=0.002205 18$CM+=4.87E-4 5
76KR cE TI$0.7 (2005Gi17), 0.0150 {I25} (2013Pe13). The feeding is considered
76KR2cE as questionable since log| {Ift} is too low to be realistic for |DJ=2,
76KR3cE |D|p=no |b transition
76KR G 1035.5 1 0.5 1 [E1] YC
76KRS G CC=0.0001998 28$KC=0.0001778 25$LC=1.867E-5 26$MC=3.02E-6 4
76KRS G NC=3.05E-7 4
76KR2 G %IG=0.22 5
76KR cG E$level-energy difference=1035.8
76KR cG $I|g(1035.5|g)/I|g(1833.6|g)=11.8 {I9}/100 {I3}
76KR G 1222.6 6 0.9 5 [E1] XC
76KRS G CC=0.0002066 29$KC=0.0001311 18$LC=1.373E-5 19$MC=2.220E-6 31
76KRS G NC=2.246E-7 32$IPC=5.94E-5 9
76KR2 G %IG=0.39 22
76KR cG $I|g(1222.6|g)/I|g(1833.6|g)=26 {I15}/100 {I3}
76KR G 1833.6 1 3.5 3 E1(+M2) 0.12 +28-12 YC
76KR2 G EKC=0.000071 21
76KRS G CC=0.000577 29$KC=6.9E-5 21$LC=7.2E-6 22$MC=1.17E-6 35
76KRS G NC=1.2E-7 4$IPC=0.00050 5
76KR2 G %IG=1.53 14
76KR L 2332.70 16 (1-) A
76KR E 0.208 300.00222 327.72 +8-7 0.21 3
76KRS E EAV=2386.9 19$CK=0.00929 8$CL=0.001054 9$CM+=2.324E-4 22
76KR cE TI$0.2 (2005Gi17), 0.340 {I25} (2013Pe13)
76KR G 1908.5 2 0.65 3 XC
76KR2 G %IG=0.285 16
76KR G 2333.2 4 0.20 5 XC
76KR2 G %IG=0.088 22
76KR cG $I|g(2333.2|g)/I|g(1908.5|g)=31 {I8}/100 {I5}
76KR L 2571.01 8 1- 16 PS 4
76KR E 15.3 40.188 55.759 20 15.5 4
76KRS E EAV=2272.4 19$CK=0.01063 9$CL=0.001207 10$CM+=2.661E-4 26
76KR cE TI$from 2013Pe13. The gamma intensity balance gives 43.4 {I14},
76KR2cE 2005Gi17 list 34 (2005Gi17), 15.5 {I4} (2013Pe13)
76KR G 378.5 1 0.54 2 M1+E2 0.9 +8-5 0.0057 11 XC
76KRF G FLAG=Zz
76KR2 G EKC=0.005 1
76KRS G KC=0.0051 10$LC=0.00056 12$MC=9.1E-5 19
76KRS G NC=9.1E-6 18
76KR2 G %IG=0.237 12
76KR cG $I|g(378.5|g)/I|g(2571.1|g)=0.70 {I3}/100 {I4}
76KR G 466.9 13 0.24 10 XC
76KR2 G %IG=0.11 5
76KR cG $I|g(466.9|g)/I|g(2571.1|g)=0.3 {I1}/100 {I4}
76KR G 479.5 1 1.8 1 E1(+M2) 0.17 LT 0.0011710 YC
76KR2 G EKC=0.00091 20
76KRS G KC=0.00104 9$LC=0.000111 10$MC=1.80E-5 16
76KRS G NC=1.81E-6 16
76KR2 G %IG=0.79 5
76KR cG $I|g(479.5|g)/I|g(2571.1|g)=2.25 {I8}/100 {I4}
76KR G 883.6 1 10.3 6 E1 YC
76KRF G FLAG=Z
76KR2 G EKC=0.000213 18
76KRS G CC=0.000272 4$KC=0.0002423 34$LC=2.55E-5 4$MC=4.12E-6 6
76KRS G NC=4.16E-7 6
76KR2 G %IG=4.51 30
76KR cG $I|g(883.6|g)/I|g(2571.1|g)=12.5 {I4}/100 {I4}
76KR G 973.0 1 4.8 3 E1 YC
76KRF G FLAG=Z
76KR2 G EKC=0.00021 3
76KRS G CC=0.0002251 32$KC=0.0002004 28$LC=2.105E-5 29$MC=3.40E-6 5
76KRS G NC=3.44E-7 5
76KR2 G %IG=2.10 15
76KR cG $I|g(973.0|g)/I|g(2571.1|g)=6.1 {I2}/100 {I4}
76KR G 1349.3 1 2.0 1 [E1] YC
76KRS G CC=0.000268 4$KC=0.0001103 15$LC=1.154E-5 16$MC=1.866E-6 26
76KRS G NC=1.889E-7 26$IPC=0.0001437 20
76KR2 G %IG=0.88 5
76KR cG $I|g(1349.3|g)/I|g(2571.1|g)=2.22 {I7}/100 {I4}
76KR G 2147.2 3 1.0 1 [E1] Y
76KRS G CC=0.000788 11$KC=5.27E-5 7$LC=5.49E-6 8$MC=8.87E-7 12
76KRS G NC=8.99E-8 13$IPC=0.000729 10
76KR2 G %IG=0.44 5
76KR cG $I|g(2147.2|g)/I|g(2571.1|g)=1.39 {I7}/100 {I4}
76KR G 2571.1 2 104 4 [E1] 1.04E-3 2 Y
76KRS G KC=4.07E-5 6$LC=4.23E-6 6$MC=6.83E-7 10
76KRS G NC=6.93E-8 10$IPC=0.000999 14
76KR2 G %IG=45.5 13
76KR L 2581.11 10 (2+) A
76KR E 0.45 80.0056 107.28 +9-8 0.46 8
76KRS E EAV=2267.6 19$CK=0.01070 9$CL=0.001214 10$CM+=2.677E-4 26
76KR cE TI$0.5 (2005Gi17), 6.0 {I9} (2013Pe13)
76KR G 1359.4 1 0.90 4 XC
76KR2 G %IG=0.394 22
76KR G 1546.1 3 0.42 17 XC
76KR2 G %IG=0.18 8
76KR cG $I|g(1546.1|g)/I|g(1359.4|g)=47 {I19}/100 {I4}
76KR L 2700.16 13 2+ 27 PS LT A
76KR E 0.32 40.0042 57.39 +7-6 0.32 4
76KRS E EAV=2210.5 19$CK=0.01148 10$CL=0.001302 11$CM+=2.873E-4 28
76KR cE TI$0.5 (2005Gi17), 5.5 {I6} (2013Pe13)
76KR G 1665.6 5 0.30 5 [E2] XC
76KRS G CC=0.000321 5$KC=0.0001491 21$LC=1.570E-5 22$MC=2.54E-6 4
76KRS G NC=2.57E-7 4$IPC=0.0001539 22
76KR2 G %IG=0.131 22
76KR cG $I|g(1665.6|g)/I|g(2276.6|g)=25 {I4}/100 {I5}
76KR G 2276.6 4 1.20 6 XC
76KR2 G %IG=0.526 31
76KR L 2742.27 22 (4-) A
76KR E 0.087 9 0.0047 5 11.52 4 0.092 9 2U
76KRS E EAV=2221.2 20$CK=0.04453 46$CL=0.005189 54$CM+=0.001066 11
76KR cE TI$0.10 (2005Gi17), 2.1 {I5} (2013Pe13)
76KR G 1009.0 2 0.21 2 XC
76KR2 G %IG=0.092 9
76KR L 2774.94 12 0+,1,2 22 PS 10
76KR E 2.66 300.037 46.43 +6-5 2.7 3
76KRS E EAV=2174.5 19$CK=0.01201 10$CL=0.001362 12$CM+=3.005E-4 29
76KR cE TI$2.1 (2005Gi17), 0.26 {I4} (2013Pe13)
76KR G 1553.2 1 1.7 1 YC
76KR2 G %IG=0.74 5
76KR cG $I|g(1553.2|g)/I|g(2350.9|g)=56 {I3}/100 {I4}
76KR G 2350.9 4 4.4 6 YC
76KR2 G %IG=1.93 27
76KR L 2816.57 18 (1,2+) 13 PS LT
76KR E 3.1 40.043 66.36 +7-6 3.1 4
76KRS E EAV=2154.4 19$CK=0.01231 10$CL=0.001397 12$CM+=3.083E-4 30
76KR cE TI$2.6 (2005Gi17), 0.788 {I18} (2013Pe13)
76KR G 2046.5 2 0.81 6 XC
76KR2 G %IG=0.355 29
76KR cG $I|g(2046.5|g)/I|g(2392.8|g)=30 {I2}/100 {I3}
76KR G 2392.8 4 4.8 6 Y
76KR2 G %IG=2.10 27
76KR G 2816.6 4 2.7 LT
76KR2 G %IG=0.6 6
76KR cG RI$from branching ratio in 2005Gi17. Other: 8.1 {I9} in Adopted Levels,
76KR2cG Gammas dataset
76KR cG $I|g(2816.6|g)/I|g(2392.8|g)=<56/100 {I3}
76KR L 2926.59 12 0-,1-,2- 21 PS 5
76KR E 9 10.137 155.84 +6-5 9.1 10
76KRS E EAV=2101.7 19$CK=0.01318 11$CL=0.001496 13$CM+=3.300E-4 33
76KR cE TI$12.3 (2005Gi17), 4.0 {I5} (2013Pe13)
76KR G 355.6 1 17.4 20M1(+E2) 0.12 LT 0.00484 8 YC
76KRF G FLAG=Zz
76KR2 G EKC=0.00422 15
76KRS G KC=0.00429 7$LC=0.000464 7$MC=7.52E-5 12
76KRS G NC=7.58E-6 12
76KR2 G %IG=7.6 9
76KR G 822.2 2 3.2 3 M1 YC
76KRF G FLAG=Z
76KR2 G EKC=0.00058 6
76KRS G CC=0.000703 10$KC=0.000625 9$LC=6.63E-5 9$MC=1.073E-5 15
76KRS G NC=1.086E-6 15
76KR2 G %IG=1.40 14
76KR cG $I|g(822.2|g)/I|g(355.6|g)=14 {I4}/100 {I3}
76KR L 2970.1 3 (0+,1,2) 39 PS LT A
76KR E 0.49 40.0077 67.08 +5-4 0.50 4
76KRS E EAV=2081.1 19$CK=0.01355 11$CL=0.001538 13$CM+=3.392E-4 34
76KR cE TI$0.6 (2005Gi17), 3.94 {I24} (2013Pe13)
76KR G 2546.0 3 1.13 7 XC
76KR2 G %IG=0.495 34
76KR L 3024.42 9 (2)- 18 PS 6
76KR E 7.6 50.123 85.87 4 7.7 5
76KRS E EAV=2055.2 19$CK=0.01403 12$CL=0.001592 14$CM+=3.51E-4 3
76KR cE TI$6.8 (2005Gi17), 11.74 {I30} (2013Pe13)
76KR G 324.3 1 0.77 4 [E1] 0.00299 4 XC
76KRS G KC=0.00265 4$LC=0.000283 4$MC=4.56E-5 6
76KRS G NC=4.57E-6 6
76KR2 G %IG=0.337 21
76KR cG $I|g(324.3|g)/I|g(453.5|g)=14.5 {I8}/100 {I4}
76KR G 443.3 1 0.27 3 [E1] 1.31E-3 2 XC
76KRS G KC=0.001166 16$LC=0.0001238 17$MC=2.000E-5 28
76KRS G NC=2.010E-6 28
76KR2 G %IG=0.118 14
76KR cG $I|g(443.3|g)/I|g(453.5|g)=5.0 {I5}/100 {I4}
76KR G 453.5 2 5.8 3 M1(+E2) 0.3 3 0.0028230 YC
76KR2 G EKC=0.0025 3
76KRS G KC=0.00251 26$LC=0.000270 31$MC=4.4E-5 5
76KRS G NC=4.4E-6 5
76KR2 G %IG=2.54 15
76KR G 766.7 1 3.1 2 M1,E2 YC
76KRF G FLAG=Z
76KR2 G EKC=0.00089 17
76KRS G CC=0.00089 7$KC=0.00079 6$LC=8.4E-5 7$MC=1.36E-5 12
76KRS G NC=1.37E-6 11
76KR2 G %IG=1.36 10
76KR cG $I|g(766.7|g)/I|g(453.5|g)=56.6 {I17}/100 {I4}
76KR G 920.2 1 0.89 4 M1,E2 XC
76KRF G FLAG=Z
76KR2 G EKC=0.00048 8
76KRS G CC=0.000578 27$KC=0.000513 24$LC=5.47E-5 28$MC=8.9E-6 5
76KRS G NC=8.9E-7 4
76KR2 G %IG=0.390 21
76KR cG $I|g(920.2|g)/I|g(453.5|g)=16.8 {I8}/100 {I4}
76KR G 1291.3 3 0.45 7 [E1] XC
76KRS G CC=0.0002397 34$KC=0.0001190 17$LC=1.246E-5 17$MC=2.014E-6 28
76KRS G NC=2.039E-7 29$IPC=0.0001060 15
76KR2 G %IG=0.197 31
76KR cG $I|g(1291.3|g)/I|g(453.5|g)=8.5 {I13}/100 {I4}
76KR G 2600.2 4 6.8 8 [E1] 1.06E-3 2 Y
76KRS G KC=4.00E-5 6$LC=4.16E-6 6$MC=6.72E-7 9
76KRS G NC=6.82E-8 10$IPC=0.001016 14
76KR2 G %IG=3.0 4
76KR cG $I|g(2600.2|g)/I|g(453.5|g)=61 {I2}/100 {I4}
76KR L 3242.1 3 (1,2+) 23 PS LT A
76KR E 1.37 300.026 66.51 +11-9 1.4 3
76KRS E EAV=1951.0 19$CK=0.01618 14$CL=0.001837 16$CM+=4.06E-4 4
76KR cE TI$1.6 (2005Gi17), 1.29 {I12} (2013Pe13)
76KR G 2817.3 9 2.1 6 XC
76KR2 G %IG=0.92 27
76KR G 3242.3 3 1.2 2 XC
76KR2 G %IG=0.53 9
76KR cG $I|g(3242.3|g)/I|g(2817.3|g)=57 {I9}/100 {I29}
76KR L 3275.91 21 (1+,2) A
76KR E 0.58 40.0111 86.87 4 0.59 4
76KRS E EAV=1934.8 19$CK=0.01656 14$CL=0.001880 16$CM+=4.15E-4 4
76KR cE TI$0.7 (2005Gi17), 0.46 {I13} (2013Pe13)
76KR G 1542.6 2 0.35 4 XC
76KR2 G %IG=0.153 18
76KR cG $I|g(1542.6|g)/I|g(2054.3|g)=35 {I4}/100 {I5}
76KR G 2054.3 5 1.00 5 XC
76KR2 G %IG=0.438 26
76KR L 3421.6 5 (0+,1,2) 24 PS LT A
76KR E 0.297 230.0063 57.09 4 0.303 23
76KRS E EAV=1865.1 19$CK=0.01831 16$CL=0.002079 18$CM+=4.58E-4 5
76KR cE TI$0.4 (2005Gi17), 0.17 {I7} (2013Pe13)
76KR G 2997.5 5 0.69 5 XC
76KR2 G %IG=0.302 24
76KR L 3456.1 5 (0-,1,2) A
76KR E 0.23 50.0049 117.20 +12-9 0.23 5
76KRS E EAV=1848.9 19$CK=0.01876 16$CL=0.002130 19$CM+=4.70E-4 5
76KR cE TI$0.3 (2005Gi17), 1.20 {I11} (2013Pe13)
76KR G 431.7 5 0.52 11 XC
76KR2 G %IG=0.23 5
76KR cG $E|g=431.3 {I2}, I|g=0.6 {I2}; unplaced (1984Mo22)
76KR L 3602.81 13 1- 9.7 PS LT A
76KR E 5.8 60.140 145.72 +6-5 5.9 6
76KRS E EAV=1778.9 19$CK=0.02086 18$CL=0.002368 21$CM+=5.22E-4 5
76KR cE TI$7.0 (2005Gi17), 2.24 {I38} (2013Pe13)
76KR G 1270.1 2 0.37 3 M1,E2 XC
76KRF G FLAG=Z
76KR2 G EKC=0.00026 9
76KRS G CC=0.000306 7$KC=0.000255 5$LC=2.70E-5 6$MC=4.37E-6 9
76KRS G NC=4.42E-7 8$IPC=1.86E-5 25
76KR2 G %IG=0.162 14
76KR cG $I|g(1270.1|g)/I|g(3178.3|g)=4.0 {I3}/100 {I12}
76KR G 1463.0 2 0.39 8 XC
76KR2 G %IG=0.17 4
76KR cG $I|g(1463.0|g)/I|g(3178.3|g)=4.2 {I9}/100 {I12}
76KR G 1498.4 3 0.32 4 XC
76KR2 G %IG=0.140 18
76KR cG $I|g(1498.4|g)/I|g(3178.3|g)=3.4 {I4}/100 {I12}
76KR G 3178.3 2 9.4 11[E1] 1.35E-3 2 XC
76KRS G KC=3.04E-5 4$LC=3.16E-6 4$MC=5.10E-7 7
76KRS G NC=5.18E-8 7$IPC=0.001313 18
76KR2 G %IG=4.1 5
76KR G 3602.8 10 3.4 7 E1 1.54E-3 2 X
76KRS G KC=2.58E-5 4$LC=2.67E-6 4$MC=4.32E-7 6
76KRS G NC=4.38E-8 6$IPC=0.001512 21
76KR2 G %IG=1.49 31
76KR cG $I|g(3602.8|g)/I|g(3178.3|g)=36 {I7}/100 {I12}
76KR L 3636.3 3 1,2(+) A
76KR E 1.05 190.026 56.44 +9-8 1.08 19
76KRS E EAV=1763.2 19$CK=0.02138 19$CL=0.002428 22$CM+=5.36E-4 5
76KR cE TI$1.3 (2005Gi17)
76KR G 3214.2 14 1.7 4 XC
76KR2 G %IG=0.74 18
76KR G 3636.1 3 0.75 14 X
76KR2 G %IG=0.33 6
76KR cG $I|g(3636.1|g)/I|g(3214.2|g)=44 {I8}/100 {I23}
76KR L 3672.24 22 (0,1,2) A
76KR E 0.42 50.0108 136.82 6 0.43 5
76KRS E EAV=1746.1 19$CK=0.02196 19$CL=0.002494 22$CM+=5.50E-4 6
76KR cE TI$0.5 (2005Gi17), 9.7 {I11} (2013Pe13)
76KR G 432.0 9 0.13 8 XC
76KR2 G %IG=0.06 4
76KR cG E$level-energy difference=430.1
76KR cG $I|g(432.0|g)/I|g(1567.8|g)=19 {I10}/100 {I6}
76KR G 1567.8 2 0.84 5 XC
76KR2 G %IG=0.368 25
76KR L 3700 20 P
76KR E 0.594 200.0156 66.654 32 0.61 2
76KRS E EAV=1733 10$CK=0.0224 5$CL=0.00255 5$CM+=5.62E-4 11
76KR L 3740 20 P
76KR E 0.243 250.0066 77.02 6 0.250 25
76KRS E EAV=1714 10$CK=0.0231 5$CL=0.00262 6$CM+=5.79E-4 12
76KR L 3780 20 P
76KR E 0.126 200.0035 57.28 +9-8 0.13 2
76KRS E EAV=1695 9$CK=0.0238 5$CL=0.00271 6$CM+=5.97E-4 12
76KR L 3820 20 P
76KR E 0.117 250.0034 77.30 +12-10 0.120 25
76KRS E EAV=1676 9$CK=0.0246 5$CL=0.00279 6$CM+=6.16E-4 12
76KR L 3860 20 P
76KR E 0.165 200.0049 67.13 7 0.17 2
76KRS E EAV=1657 9$CK=0.0254 6$CL=0.00288 6$CM+=6.35E-4 13
76KR L 3900 20 P
76KR E 0.284 100.0087 46.868 33 0.293 10
76KRS E EAV=1638 9$CK=0.0262 6$CL=0.00297 7$CM+=6.56E-4 13
76KR L 3940 20 P
76KR E 0.47 90.0151 286.62 +11-9 0.49 9
76KRS E EAV=1619 9$CK=0.0270 6$CL=0.00307 7$CM+=6.78E-4 14
76KR L 3978.0 3 1,2(+) 17 PS LT A
76KR E 0.79 190.026 66.38 +12-10 0.82 19
76KRS E EAV=1600.9 19$CK=0.02786 25$CL=0.003165 29$CM+=6.98E-4 7
76KR cE TI$0.5 (2005Gi17), 0.71 {I14} for a 3980 group (2013Pe13)
76KR G 3553.6 4 0.97 16 XC
76KR2 G %IG=0.43 7
76KR G 3978.2 4 0.9 4 X
76KR2 G %IG=0.39 18
76KR cG $I|g(3978.2|g)/I|g(3553.6|g)=93 {I14}/100 {I17}
76KR L 3986.6 3 1,2(+) 27 PS 18 A
76KR E 0.98 130.032 46.28 +7-6 1.01 13
76KRS E EAV=1596.6 19$CK=0.02806 25$CL=0.003187 29$CM+=7.03E-4 7
76KR cE TI$1.2 (2005Gi17)
76KR G 3216.3 4 1.2 2 XC
76KR2 G %IG=0.53 9
76KR G 3562.7 4 1.1 2 XC
76KR2 G %IG=0.48 9
76KR cG $I|g(3562.7|g)/I|g(3216.3|g)=93 {I14}/100 {I16}
76KR L 4026.72 17 1,2(+) 17 PS LT A
76KR E 1.54 210.052 76.06 +7-6 1.59 21
76KRS E EAV=1577.7 19$CK=0.02899 26$CL=0.003293 30$CM+=7.27E-4 7
76KR cE TI$2.0 (2005Gi17), 0.85 {I16} for a 4020 group (2013Pe13)
76KR G 2805.5 3 0.60 5 XC
76KR2 G %IG=0.263 24
76KR cG $I|g(2805.5|g)/I|g(3602.2|g)=32 {I3}/100 {I24}
76KR G 3257.4 5 0.46 15 XC
76KR2 G %IG=0.20 7
76KR cG $I|g(3257.4|g)/I|g(3602.2|g)=27 {I9}/100 {I24}
76KR G 3602.2 2 1.7 4 XC
76KR2 G %IG=0.74 18
76KR G 4026.8 6 0.86 16 XC
76KR2 G %IG=0.38 7
76KR cG $I|g(4026.8|g)/I|g(3602.2|g)=51 {I9}/100 {I24}
76KR L 4060 20 P
76KR E 0.80 60.0282 216.33 5 0.83 6
76KRS E EAV=1562 9$CK=0.0298 7$CL=0.00339 8$CM+=7.47E-4 16
76KR L 4097.74 20 1,2(+) 18 PS LT A
76KR E 1.48 130.054 56.04 +5-4 1.53 13
76KRS E EAV=1544.1 19$CK=0.03075 28$CL=0.003493 32$CM+=7.70E-4 8
76KR cE TI$1.8 (2005Gi17), 0.74 {I2} for a 4100 group (2013Pe13)
76KR G 3327.6 5 0.29 8 XC
76KR2 G %IG=0.13 4
76KR cG $I|g(3327.6|g)/I|g(3673.6|g)=13 {I4}/100 {I11}
76KR G 3673.6 2 2.2 2 XC
76KR2 G %IG=0.96 9
76KR G 4098.8 17 1.00 17 X
76KR2 G %IG=0.44 8
76KR cG $I|g(4098.8|g)/I|g(3673.6|g)=46 {I8}/100 {I11}
76KR L 4140 20 P
76KR E 0.588 250.0221 106.42 4 0.610 25
76KRS E EAV=1524 9$CK=0.0319 7$CL=0.00362 8$CM+=7.99E-4 17
76KR L 4180 20 P
76KR E 0.52 20.0203 96.45 +4-3 0.54 2
76KRS E EAV=1505 9$CK=0.0330 8$CL=0.00375 9$CM+=8.26E-4 18
76KR L 4220 20 P
76KR E 0.509 250.0206 116.43 4 0.530 25
76KRS E EAV=1487 9$CK=0.0341 8$CL=0.00388 9$CM+=8.56E-4 19
76KR L 4260 20 P
76KR E 0.59 110.025 46.35 +11-9 0.61 11
76KRS E EAV=1468 9$CK=0.0353 8$CL=0.00402 10$CM+=8.86E-4 19
76KR L 4289.42 22 (0,1,2)- A
76KR E 1.94 80.0834 345.810 27 2.02 8
76KRS E EAV=1454.0 19$CK=0.03627 34$CL=0.00412 4$CM+=9.10E-4 9
76KR cE TI$2.3 (2005Gi17), 0.782 {I14} for a 4300 group (2013Pe13)
76KR G 686.5 4 0.39 3 M1,E2 0.0011612 XC
76KRF G FLAG=Z
76KR2 G EKC=0.0010 3
76KRS G KC=0.00103 10$LC=0.000111 12$MC=1.80E-5 20
76KRS G NC=1.81E-6 19
76KR2 G %IG=0.171 14
76KR cG $I|g(686.5|g)/I|g(1718.6|g)=14.4 {I11}/100 {I4}
76KR G 1718.6 4 2.7 1 M1,E2 XC
76KRF G FLAG=Z
76KR2 G %IG=1.18 6
76KR cG $E|g=1718.3 {I3}, I|g=3.1 {I6}; unplaced (1984Mo22)
76KR2 G EKC=0.00016 6
76KRS G CC=0.000319 16$KC=0.0001401 20$LC=1.472E-5 21$MC=2.381E-6 34
76KRS G NC=2.413E-7 34$IPC=0.000162 15
76KR G 2185.0 3 1.5 1 XC
76KR2 G %IG=0.66 5
76KR cG $I|g(2185.0|g)/I|g(1718.6|g)=55 {I3}/100 {I4}
76KR L 4340 20 P
76KR E 1.0 50.043 226.08 +32-20 1.0 5
76KRS E EAV=1430 9$CK=0.0379 9$CL=0.00431 10$CM+=9.51E-4 21
76KR L 4380 20 P
76KR E 1.01 260.047 126.04 +14-11 1.06 26
76KRS E EAV=1411 9$CK=0.0393 10$CL=0.00447 11$CM+=9.86E-4 22
76KR L 4420 20 P
76KR E 0.87 210.042 106.08 +13-11 0.91 21
76KRS E EAV=1392 9$CK=0.0408 10$CL=0.00464 11$CM+=0.001023 23
76KR L 4460 20 P
76KR E 0.64 170.032 86.19 +15-12 0.67 17
76KRS E EAV=1373 9$CK=0.0423 11$CL=0.00481 12$CM+=0.001062 24
76KR L 4500 20 P
76KR E 0.45 110.024 66.31 +14-11 0.47 11
76KRS E EAV=1355 9$CK=0.0440 11$CL=0.00500 13$CM+=0.001103 25
76KR L 4540 20 P
76KR E 0.35 70.019 46.39 +11-10 0.37 7
76KRS E EAV=1336 9$CK=0.0457 12$CL=0.00519 13$CM+=0.001145 26
76KR L 4580 20 P
76KR E 0.34 50.0194 276.38 8 0.36 5
76KRS E EAV=1317 9$CK=0.0474 12$CL=0.00539 14$CM+=0.001190 28
76KR L 4620 20 P
76KR E 0.36 60.0213 346.33 +9-8 0.38 6
76KRS E EAV=1298 9$CK=0.0493 13$CL=0.00561 15$CM+=0.001236 29
76KR L 4660 20 P
76KR E 0.42 80.026 56.23 +11-9 0.45 8
76KRS E EAV=1280 9$CK=0.0513 13$CL=0.00583 15$CM+=0.001287 31
76KR L 4700 20 P
76KR E 0.45 80.029 56.18 +10-9 0.48 8
76KRS E EAV=1261 9$CK=0.0534 14$CL=0.00607 16$CM+=0.001339 32
76KR L 4740 20 P
76KR E 0.43 80.029 56.17 +10-9 0.46 8
76KRS E EAV=1242 9$CK=0.0556 15$CL=0.00632 17$CM+=0.001394 34
76KR L 4780 20 P
76KR E 0.38 60.027 46.19 +9-8 0.41 6
76KRS E EAV=1224 9$CK=0.0579 16$CL=0.00658 18$CM+=0.00145 4
76KR L 4820 20 P
76KR E 0.324 260.0239 196.23 5 0.348 26
76KRS E EAV=1205 9$CK=0.0603 16$CL=0.00686 19$CM+=0.00151 4
76KR L 4860 20 P
76KR E 0.283 80.0219 86.264 33 0.305 8
76KRS E EAV=1186 9$CK=0.0629 17$CL=0.00715 20$CM+=0.00158 4
76KR L 4900 20 P
76KR E 0.269 190.0218 156.26 5 0.291 19
76KRS E EAV=1168 9$CK=0.0656 18$CL=0.00747 21$CM+=0.00165 4
76KR L 4940 20 P
76KR E 0.277 300.0234 246.21 +7-6 0.30 3
76KRS E EAV=1149 9$CK=0.0685 19$CL=0.00779 22$CM+=0.00172 4
76KR L 4980 20 P
76KR E 0.29 40.0261 336.16 +8-7 0.32 4
76KRS E EAV=1130 9$CK=0.0716 20$CL=0.00814 23$CM+=0.00179 5
76KR L 5020 20 P
76KR E 0.33 50.031 46.08 +9-8 0.36 5
76KRS E EAV=1112 9$CK=0.0748 21$CL=0.00851 24$CM+=0.00187 5
76KR L 5060 20 P
76KR E 0.37 60.037 55.99 +9-8 0.41 6
76KRS E EAV=1093 9$CK=0.0782 23$CL=0.00890 26$CM+=0.00196 5
76KR L 5100 20 P
76KR E 0.41 60.042 65.92 8 0.45 6
76KRS E EAV=1075 9$CK=0.0818 24$CL=0.00931 27$CM+=0.00206 5
76KR L 5140 20 P
76KR E 0.42 40.046 45.87 6 0.47 4
76KRS E EAV=1056 9$CK=0.0857 25$CL=0.00975 29$CM+=0.00215 6
76KR L 5180 20 P
76KR E 0.441 240.0502 295.82 4 0.491 24
76KRS E EAV=1038 9$CK=0.0898 27$CL=0.01021 30$CM+=0.00225 6
76KR L 5220 20 P
76KR E 0.46 50.056 65.77 +7-6 0.52 5
76KRS E EAV=1019 9$CK=0.0941 28$CL=0.01071 32$CM+=0.00236 6
76KR L 5260 20 P
76KR E 0.50 70.063 85.70 +8-7 0.56 7
76KRS E EAV=1001 9$CK=0.0987 30$CL=0.01123 34$CM+=0.00248 7
76KR L 5300 20 P
76KR E 0.56 60.076 75.61 +7-6 0.64 6
76KRS E EAV=982 9$CK=0.1036 32$CL=0.0118 4$CM+=0.00260 7
76KR L 5340 20 P
76KR E 0.666 300.094 55.51 4 0.76 3
76KRS E EAV=964 9$CK=0.1088 34$CL=0.0124 4$CM+=0.00273 8
76KR L 5380 20 P
76KR E 0.83 90.124 125.38 +7-6 0.95 9
76KRS E EAV=945 9$CK=0.114 4$CL=0.0130 4$CM+=0.00287 8
76KR L 5420 20 P
76KR E 0.98 170.155 245.27 9 1.13 17
76KRS E EAV=927 9$CK=0.120 4$CL=0.0137 4$CM+=0.00302 9
76KR L 5460 20 P
76KR E 1.04 220.174 325.20 +11-10 1.21 22
76KRS E EAV=908 9$CK=0.126 4$CL=0.0144 5$CM+=0.00318 9
76KR L 5500 20 P
76KR E 0.92 160.165 255.22 +9-8 1.09 16
76KRS E EAV=890 9$CK=0.133 4$CL=0.0152 5$CM+=0.00335 10
76KR L 5540 20 P
76KR E 0.71 100.134 175.30 +8-7 0.84 10
76KRS E EAV=872 9$CK=0.140 5$CL=0.0160 5$CM+=0.00353 10
76KR L 5580 20 P
76KR E 0.50 70.101 125.41 +8-7 0.60 7
76KRS E EAV=853 9$CK=0.148 5$CL=0.0168 6$CM+=0.00371 11
76KR L 5620 20 P
76KR E 0.35 50.076 95.52 +8-7 0.43 5
76KRS E EAV=835 9$CK=0.156 5$CL=0.0178 6$CM+=0.00392 12
76KR L 5660 20 P
76KR E 0.27 40.062 85.59 8 0.33 4
76KRS E EAV=817 9$CK=0.165 5$CL=0.0188 6$CM+=0.00414 12
76KR L 5700 20 P
76KR E 0.225 290.055 65.63 7 0.28 3
76KRS E EAV=799 9$CK=0.174 6$CL=0.0198 7$CM+=0.00438 13
76KR L 5740 20 P
76KR E 0.206 230.054 55.63 +7-6 0.260 24
76KRS E EAV=780 9$CK=0.184 6$CL=0.0209 7$CM+=0.00463 14
76KR L 5780 20 P
76KR E 0.192 230.055 65.61 7 0.247 24
76KRS E EAV=762 9$CK=0.194 7$CL=0.0222 8$CM+=0.00489 15
76KR L 5820 20 P
76KR E 0.175 210.053 55.61 7 0.228 22
76KRS E EAV=744 9$CK=0.206 7$CL=0.0234 8$CM+=0.00518 16
76KR L 5860 20 P
76KR E 0.151 210.050 65.63 +8-7 0.201 22
76KRS E EAV=726 9$CK=0.218 7$CL=0.0248 9$CM+=0.00547 17
76KR L 5900 20 P
76KR E 0.121 170.043 55.68 +8-7 0.164 18
76KRS E EAV=708 9$CK=0.231 8$CL=0.0263 9$CM+=0.00580 18
76KR L 5940 20 P
76KR E 0.098 210.038 65.72 +10-9 0.136 22
76KRS E EAV=690 9$CK=0.244 8$CL=0.0278 10$CM+=0.00615 19
76KR L 5980 20 P
76KR E 0.081 150.034 55.75 +9-8 0.115 16
76KRS E EAV=672 9$CK=0.259 9$CL=0.0295 10$CM+=0.00651 20
76KR L 6020 20 P
76KR E 0.072 110.033 45.75 +8-7 0.105 12
76KRS E EAV=654 9$CK=0.274 10$CL=0.0313 11$CM+=0.00690 21
76KR L 6060 20 P
76KR E 0.068 90.034 45.72 7 0.102 10
76KRS E EAV=636 9$CK=0.291 10$CL=0.0332 12$CM+=0.00732 23
76KR L 6100 20 P
76KR E 0.067 70.0365 315.68 6 0.104 8
76KRS E EAV=618 9$CK=0.308 11$CL=0.0352 12$CM+=0.00777 24
76KR L 6140 20 P
76KR E 0.067 60.0399 295.62 6 0.107 7
76KRS E EAV=600 9$CK=0.327 11$CL=0.0373 13$CM+=0.00824 25
76KR L 6180 20 P
76KR E 0.067 50.0434 285.57 5 0.110 6
76KRS E EAV=582 9$CK=0.347 12$CL=0.0396 14$CM+=0.00873 27
76KR L 6220 20 P
76KR E 0.064 80.046 45.53 +7-6 0.110 9
76KRS E EAV=564 9$CK=0.367 13$CL=0.0419 14$CM+=0.00926 28
76KR L 6260 20 P
76KR E 0.059 80.047 45.51 +7-6 0.106 9
76KRS E EAV=547 9$CK=0.389 13$CL=0.0444 15$CM+=0.0098 3
76KR L 7340 20 P
76KR E 6E-6 50.0073 315.74 +27-18 0.0073 31
76KRS E EAV=81 9$CK=0.8759 6$CL=0.10096 17$CM+=0.02232 15
76KR L 7380 20 P
76KR E 8.72E-7 0.0034 166.04 +30-19 0.0034 16
76KRS E EAV=63 9$CK=0.8763 4$CL=0.10108 17$CM+=0.02234 15
76KR L 7420 20 P
76KR E 7.62E-8 0.0015 66.37 +25-17 0.0015 6
76KRS E EAV=45 9$CK=0.8764 4$CL=0.10117 17$CM+=0.02236 15
76KR L 7460 20 P
76KR E 2.49E-9 7.3E-4 96.65 8 7.3E-4 9
76KRS E EAV=27 10$CK=0.8764 4$CL=0.10125 17$CM+=0.02239 15
76KR L 7500 20 P
76KR E 6.59E-13 3.7E-4 625.5 3.7E-4 6
76KRS E EAV=0.04$CK=0.8763 4$CL=0.10132 17$CM+=0.02241 15
76KR L 7540 20 P
76KR E 2.1E-4 77.12 +20-15 2.1E-4 7
76KRS E CK=0.8762 4$CL=0.10141 18$CM+=0.02243 15
76KR L 7580 20 P
76KR E 1.4E-4 57.26 +22-16 1.4E-4 5
76KRS E CK=0.8760 4$CL=0.10150 18$CM+=0.02245 15
76KR L 7620 20 P
76KR E 1.0E-4 57.37 +33-21 1.0E-4 5
76KRS E CK=0.8759 4$CL=0.10160 19$CM+=0.02248 16
76KR L 7660 20 P
76KR E 9E-5 47.38 +29-19 9E-5 4
76KRS E CK=0.8758 4$CL=0.10171 19$CM+=0.02250 16
76KR L 7700 20 P
76KR E 1.1E-4 57.25 +29-19 1.1E-4 5
76KRS E CK=0.8756 4$CL=0.10183 20$CM+=0.02254 16
76KR L 7740 20 P
76KR E 1.6E-4 77.04 +28-19 1.6E-4 7
76KRS E CK=0.8755 4$CL=0.10196 20$CM+=0.02257 16
76KR L 7780 20 P
76KR E 3.1E-4 116.71 +22-17 3.1E-4 11
76KRS E CK=0.8753 4$CL=0.10211 21$CM+=0.02260 16
76KR L 7820 20 P
76KR E 7.0E-4 226.31 +20-15 7.0E-4 22
76KRS E CK=0.8751 4$CL=0.10228 22$CM+=0.02265 16
76KR L 7860 20 P
76KR E 0.00168 325.88 +13-11 0.00168 32
76KRS E CK=0.8748 4$CL=0.10246 23$CM+=0.02270 17
76KR L 7900 20 P
76KR E 0.0038 45.47 +9-8 0.0038 4
76KRS E CK=0.8746 5$CL=0.10267 25$CM+=0.02275 17
76KR L 7940 20 P
76KR E 0.0067 85.16 9 0.0067 8
76KRS E CK=0.8743 5$CL=0.10291 27$CM+=0.02281 18
76KR L 7980 20 P
76KR E 0.0090 94.97 +9-8 0.0090 9
76KRS E CK=0.8739 5$CL=0.10318 29$CM+=0.02288 18
76KR L 8020 20 P
76KR E 0.0092 44.90 6 0.0092 4
76KRS E CK=0.8735 5$CL=0.10350 31$CM+=0.02296 19
76KR L 8060 20 P
76KR E 0.0077 44.90 7 0.0077 4
76KRS E CK=0.8731 6$CL=0.1039 3$CM+=0.02305 20
76KR L 8100 20 P
76KR E 0.00569 184.96 +6-7 0.00569 18
76KRS E CK=0.8725 6$CL=0.1043 4$CM+=0.02317 21
76KR L 8140 20 P
76KR E 0.0038 65.05 +13-12 0.0038 6
76KRS E CK=0.8718 7$CL=0.1048 5$CM+=0.02330 22
76KR L 8180 20 P
76KR E 0.0023 85.17 +25-19 0.0023 8
76KRS E CK=0.8710 8$CL=0.1055 5$CM+=0.02347 25
76KR L 8220 20 P
76KR E 0.0013 55.31 +28-21 0.0013 5
76KRS E CK=0.870 1$CL=0.1064 7$CM+=0.02369 27
76KR L 8260 20 P
76KR E 7.0E-4 185.45 +20-18 7.0E-4 18
76KRS E CK=0.8686 12$CL=0.1075 8$CM+=0.02397 32
76KR L 8300 20 P
76KR E 3.9E-4 45.56 +13-14 3.9E-4 4
76KRS E CK=0.8667 16$CL=0.1090 11$CM+=0.0244 4
76KR L 8340 20 P
76KR E 2.7E-4 95.55 +28-24 2.7E-4 9
76KRS E CK=0.8639 23$CL=0.1112 17$CM+=0.0249 5
76KR L 8380 20 P
76KR E 2.6E-4 125.4 +4-3 2.6E-4 12
76KRS E CK=0.860 4$CL=0.1146 28$CM+=0.0258 8
76KR L 8420 20 P
76KR E 3.5E-4 174.9 +5-4 3.5E-4 17
76KRS E CK=0.852 7$CL=0.121 6$CM+=0.0274 15
76KR L 8460 20 P
76KR E 6E-4 44.3 +7-6 6E-4 4
76KRS E CK=0.833 25$CL=0.136 19$CM+=0.031 5
76KR L 8500 20 P
76KR E 0.0012 93.1 +12-16 0.0012 9
76KRS E CK=0.74 7$CL=0.21 6$CM+=0.050 13