68GE 68AS EC DECAY (151.6 S) 1977PA13 12NDS 201206
68GE H TYP=FUL$AUT=E.A. McCutchan$CIT=NDS 113, 1735 (2012)$CUT=1-Mar-2012$
68GE c 1977Pa13: {+68}As from {+58}Ni({+12}C,pn) at 32,42 MeV. Measured E|g,
68GE2c I|g, E|b{++}, |g|g and |b{++}|g coincidences, and T{-1/2} using a
68GE3c Ge(Li) detector (FWHM=2.5 keV at 1.3 MeV) and a NE102 plastic
68GE4c scintillator. See also 1976PaZY.
68GE c 1971Pa32: {+68}As from {+70}Ge(p,3n) at 40 MeV. Measured E|g, I|g,
68GE2c |g|g and T{-1/2} with Ge(Li) (FWHM=2.5 keV at 1.3 MeV), LEPS and
68GE3c NaI(Tl) detectors.
68GE cL E$From a least squares fit to E|g by evaluator.
68GE cL J$From Adopted Levels.
68GE cG E,RI$From 1977Pa13, except where noted otherwise. I|g normalized to
68GE2cG I|g(1016|g)=100.
68GE cG M,MR$From Adopted Gammas.
68GE cG RI(a)$Doublet components derived from |g|g data (1977Pa13).
68GE cG E(b),RI(b)$Reported only by 1971Pa32.
68GE cE IB,IE$From I(|e+|b{++}) and theoretical |b{++}/|e ratios.
68GE cE TI$From I(|g+ce) imbalance at each level and assuming no direct
68GE2cE feeding of the g.s.
68GE cE E$Experimental values from |b{++}|g coincidence |b{++} endpoint
68GE2cE energy measurements (1977Pa13) are given in the comments.
68GE D CC$ FROM BrIcc v2.2b (20-Jan-2009) 2008Ki07, "Frozen Orbitals" appr.
68GE D CC$ FROM BrIcc v2.2b (20-Jan-2009) 2008Ki07, "Frozen Orbitals" appr.
68GE D CC$ FROM BrIcc v2.2b (20-Jan-2009) 2008Ki07, "Frozen Orbitals" appr.
68AS P 0.0 3+ 151.6 S 8 8084 3
68GE N 0.774 11 1.0 1.0
68GE cN NR$From total I(|g+c.e.)(g.s.)=100% (direct |e feeding to the ground
68GE2cN state is not expected (|DJ=3)). Systematics of log {Ift} values for
68GE3cN |DJ=3 with no parity change give a lower limit of 13 (1973Ra10).
68GE4cN Based on this limit, the |e branch to the g.s. would have an
68GE5cN intensity less than 2|*10{+-5}%.
68GE G 3058 3 1.1 2
68GEX G FLAG=b
68GE L 0.0 0+
68GE L 1016.23 22 2+
68GE G 1016.1 3 100 E2
68GES G CC=0.000341 5$KC=0.000304 5$LC=3.12E-5 5$MC=4.66E-6 7$NC+=3.04E-7 5
68GE E 4.0 220.016 9 7.38 24 4.0 22
68GES E EAV=2824.5 15$CK=0.003554 6$CL=0.0003973 6$CM+=7.440E-5 11
68GE L 1754.8 4 0+
68GE G 738.4 5 3.9 3 E2
68GES G CC=0.000760 11$KC=0.000679 10$LC=7.03E-5 10$MC=1.048E-5 15$NC+=6.78E-7
68GE E 0.2 LT0.001 LT8.4 GT 0.2 LT
68GES E EAV=2464.0 15$CK=0.005217 9$CL=0.0005833 1$CM+=0.00010925
68GE L 1778.15 23 2+
68GE G 761.8 3 43.3 23 M1+E2 -0.15 3
68GES G CC=0.000552 8$KC=0.000493 7$LC=5.04E-5 8$MC=7.53E-6 11$NC+=4.97E-7 7
68GE G 1778.1 3 25.8 15 E2
68GES G CC=0.000310 5$KC=9.35E-5 13$LC=9.48E-6 14$MC=1.414E-6 20$
68GES G NC+=0.000205 3
68GE E 7 3 0.04 2 6.86 19 7 3
68GES E EAV=2452.6 15$CK=0.005285 9$CL=0.0005909 1$CM+=0.00011068
68GE L 2268.6 4 4+
68GE G 1252.4 3 5.8 4 E2
68GES G CC=0.000230 4$KC=0.000190 3$LC=1.94E-5 3$MC=2.89E-6 4$NC+=1.79E-5 3
68GE E 3.1 4 0.025 3 7.02 6 3.1 4
68GES E EAV=2214.2 15$CK=0.007041 13$CL=0.0007874 1$CM+=0.0001475 3
68GE L 2429.5 3 3+
68GE G 651.2 3 41.2 21 M1+E2 +0.06 2
68GES G CC=0.000772 11$KC=0.000690 10$LC=7.07E-5 10$MC=1.056E-5 15$NC+=6.96E-7
68GE G 1413.3 5 19.6 10 M1+E2 +0.16 8
68GES G CC=0.000200 3$KC=0.0001396 20$LC=1.415E-5 20$MC=2.11E-6 3$
68GES G NC+=4.42E-5 7
68GE E 36.0 200.320 185.885 24 36.3 20
68GES E EAV=2136.2 15$CK=0.007785 15$CL=0.0008707 1$CM+=0.0001631 4
68GE L 2457.7 7 2+
68GE G 190.3 10 1.5 2 [E2] 0.066917 S
68GES G KC=0.0592 15$LC=0.00669 17$MC=0.000992 25$NC+=5.81E-5 14
68GE cG E,RI$from the Adopted Gammas and I|g(702|g)=0.9 {I1}.
68GE G 702.9 10 0.9 1 [E2]
68GES G CC=0.000869 13$KC=0.000776 12$LC=8.04E-5 12$MC=1.199E-5 18$NC+=7.75E-7
68GE G 1441.0 10 0.69 13 S
68GE cG E,RI$from the Adopted Gammas and I|g(702|g)=0.9 {I1}.
68GE G 2457.6 10 1.3 10 [E2]
68GEF G FLAG=a
68GES G CC=0.000591 9$KC=5.21E-5 8$LC=5.26E-6 8$MC=7.84E-7 11$NC+=0.000533 8
68GE E 3.5 8 0.031 7 6.89 10 3.5 8
68GES E EAV=2122.6 15$CK=0.007926 16$CL=0.0008865 1$CM+=0.0001661 4
68GE L 2649.4 10 3-
68GE G 871.2 2 0.069 6 [E1] S
68GES G CC=0.000201 3$KC=0.000180 3$LC=1.82E-5 3$MC=2.72E-6 4$NC+=1.781E-7 25
68GE cG E,RI$from the Adopted Gammas and I|g(1633|g)=1.3 {I1}.
68GE G 1633.2 10 1.3 1 E1+M2 +0.09 3
68GES G CC=0.000423 6$KC=5.91E-5 13$LC=5.96E-6 13$MC=8.89E-7 19$NC+=0.000357 6
68GE E 0.90 110.0093 117.39 6 0.91 11
68GES E EAV=2029.8 16$CK=0.008983 19$CL=0.0010048 2$CM+=0.0001882 4
68GE L 2830.9 4 4+
68GE G 403.8 10 0.056 8 S
68GE cG E,RI$from the Adopted Gammas and I|g(1053|g)=2.3 {I2}.
68GE G 564.0 10 0.156 19 S
68GE cG E,RI$from the Adopted Gammas and I|g(1053|g)=2.3 {I2}.
68GE G 1052.7 5 2.3 2 E2
68GES G CC=0.000314 5$KC=0.000280 4$LC=2.87E-5 4$MC=4.28E-6 6$NC+=2.80E-7 4
68GE G 1814.7 5 1.8 2 E2
68GES G CC=0.000323 5$KC=9.00E-5 13$LC=9.11E-6 13$MC=1.360E-6 19$
68GES G NC+=0.000222 4
68GE E 3.30 220.038 3 6.74 3 3.34 22
68GES E EAV=1942.1 15$CK=0.010164 22$CL=0.0011370 2$CM+=0.0002130 5
68GE L 2947.9 5 2+
68GE G 1169.7 5 1.2 1
68GE E 0.92 8 0.012 1 7.24 4 0.93 8
68GES E EAV=1885.7 15$CK=0.011037 24$CL=0.001235 3$CM+=0.0002313 5
68GE L 3023.6 5 2+
68GE G 1245.1 10 0.6 1
68GE G 2007.4 5 4.6 4
68GE E 3.9 3 0.053 4 6.57 4 4.0 3
68GES E EAV=1849.3 15$CK=0.01166 3$CL=0.001304 3$CM+=0.0002443 6
68GE cE $E|b{++}=3680 {I180} (1977Pa13), weighted average of 3645 {I242} and
68GE2cE 3720 {I279}.
68GE L 3041.5 3 (4+)
68GE G 612.0 3 12.5 7 M1+E2 +0.24 4
68GES G CC=0.000906 15$KC=0.000810 13$LC=8.31E-5 14$MC=1.242E-5 21$NC+=8.16E-7
68GE G 1263.4 3 6.6 4
68GE G 2025.3 10 0.7 1
68GE E 15.1 6 0.205 8 5.979 18 15.3 6
68GES E EAV=1840.6 15$CK=0.01181 3$CL=0.001321 3$CM+=0.0002475 6
68GE cE $E|b{++}=3950 {I70} (1977Pa13), weighted average of 3855 {I204}, 3885
68GE2cE {I280}, 3929 {I108}, and 3998 {I92}.
68GE L 3087.8 5 2(+)
68GE G 1309.6 10 0.7 1
68GE G 1332.8 5 1.5 1
68GE G 2071.8 10 0.4 1
68GE G 3088.3 10 1.3 1
68GE E 3.0 2 0.042 3 6.66 3 3.0 2
68GES E EAV=1818.4 15$CK=0.01222 3$CL=0.001367 3$CM+=0.0002561 6
68GE L 3288.0 7 2(+)
68GE G 2271.3 10 1.0 1
68GE G 3288.4 10 0.4 1
68GE E 1.1 1 0.018 2 7.00 4 1.1 1
68GES E EAV=1722.2 15$CK=0.01422 4$CL=0.001592 4$CM+=0.0002981 8
68GE L 3400.8 4 2(+)
68GE G 1622.5 5 5.4 3
68GE G 1645.9 10 1.3 1
68GE G 2384.6 10 1.2 1
68GE G 3401.3 10 0.3 1
68GE E 6.2 3 0.11 1 6.181 21 6.3 3
68GES E EAV=1668.1 15$CK=0.01555 4$CL=0.001740 5$CM+=0.0003259 8
68GE cE $E|b{++}=3580 {I80} (1977Pa13), weighted average of 3495 {I167} and
68GE2cE 3605 {I86}.
68GE L 3417.9 5
68GE G 988.3 5 1.3 1
68GE G 1639.9 7 2.2 1
68GE E 2.7 1 0.048 2 6.540 17 2.7 1
68GES E EAV=1659.9 15$CK=0.01576 4$CL=0.001764 5$CM+=0.0003305 9
68GE L 3475.1 10
68GE G 2458.8 10 6.5 10
68GEF G FLAG=a
68GE E 4.9 8 0.094 156.24 7 5.0 8
68GES E EAV=1632.5 16$CK=0.01651 5$CL=0.001848 5$CM+=0.0003462 9
68GE L 3522.5 10 2+
68GE G 2506.2 10 1.8 1
68GE E 1.4 1 0.027 2 6.77 4 1.4 1
68GES E EAV=1609.8 16$CK=0.01717 5$CL=0.001922 5$CM+=0.0003600 1
68GE cE $E|b{++}=3510 {I110} (1977Pa13).
68GE L 3809.7 10 2+
68GE G 2793.4 10 1.6 1
68GE E 1.2 1 0.030 3 6.67 4 1.2 1
68GES E EAV=1472.7 15$CK=0.02199 7$CL=0.002463 7$CM+=0.0004614 1
68GE cE $E|b{++}=3010 {I140} (1977Pa13).
68GE L 4238.9 10 (2+)
68GE G 3222.6 10 0.2 1
68GE E 0.14 8 0.006 3 7.30 24 0.15 8
68GES E EAV=1269.1 15$CK=0.03323 11$CL=0.003723 13$CM+=0.0006975 2
68GE L 4567.9 10 (2+)
68GE G 3551.6 10 0.5 1
68GE E 0.4 1 0.02 1 6.64 11 0.4 1
68GES E EAV=1114.2 15$CK=0.04755 18$CL=0.005329 20$CM+=0.000999 4
68GE L 4878.5 14
68GE G 2229.0 10 0.2 1
68GE E 0.14 7 0.012 6 6.82 24 0.15 8
68GES E EAV=969.2 16$CK=0.0695 3$CL=0.00779 4$CM+=0.001460 7