136ND 136PM EC DECAY:E=Y 1973PAZV NDS18 201810
136ND H TYP=FUL$AUT=E.A. MCCUTCHAN$CIT=NDS 152, 331 (2018)$CUT=1-Apr-2018$
136ND c {+136}Pm produced in the {+121}Sb({+20}Ne,5n) reaction. Measured E|g,
136ND2c I|g, |g|g-coincidences, |g(|q), and |g(t). Assignment based on
136ND3c coincidences with known transitions in {+136}Nd from
136ND4c {+120}Sn({+20}Ne,4n|g) and |g(t). The evaluator considers this decay
136ND5c scheme to be partial from comparison of the maximum level energy of
136ND6c 2.4 MeV to the Q value of 8.0 MeV. It appears that only the high-spin
136ND7c isomer was populated, as all lines measured with |g(t) exhibit a
136ND8c T{-1/2} between 90 and 150 s. See also |e decay E=x,y.
136ND c Other: 1983Al06
136ND cL E$From a least-squares fit to E|g, by evaluator.
136ND cL J$From the Adopted Levels
136ND cE $I|b and I|e calculated using y=0 for excitation energy of the isomer
136ND cE TI$See Levels from {+136}Pm |e decay E=x,y for a comparison of the
136ND2cE direct feedings obtained in the two experiments
136ND cG M$From the Adopted Gammas
136ND cG E(C),RI(C)$From E=x,y |e decay
136ND cE $E|b+=4732 {I70} from 1983Al06 (preliminary).
136PM P Y (5-) 107 S 6 8030 70
136ND N 0.0187 8 1.0 1.0
136ND cN NR$from |SI|g(1+|a)(to g.s.)=100%, assuming no direct feeding of g.s.
136ND2cN (|DJ=5)
136ND PN 3
136ND L 0.0 0+
136ND L 373.6 3 2+
136ND G 373.5 3 4.80E+320 E2 0.0269 C
136NDS G KC=0.0218 3$LC=0.00401 6$MC=0.000872 13$NC=0.000192 3$OC=2.75E-5 4$
136NDS G PC=1.235E-6 18
136ND L 861.8 3 2+
136ND G 488.0 5 490 50 E2+M1 0.016 4 C
136NDS G KC=0.014 4$LC=0.0020 3$MC=0.00042 5$NC=9.4E-5 12$OC=1.40E-5 21$
136NDS G PC=8.3E-7 23
136ND G 862.1 5 415 80 E2 0.00310
136NDS G KC=0.00263 4$LC=0.000371 6$MC=7.88E-5 11$NC=1.756E-5 25$OC=2.63E-6 4$
136NDS G PC=1.585E-7 23
136ND L 976.4 4 4+
136ND G 602.7 3 2.66E+315 E2 0.00723 C
136NDS G KC=0.00605 9$LC=0.000931 14$MC=0.000199 3$NC=4.43E-5 7$OC=6.53E-6 10$
136NDS G PC=3.60E-7 5
136ND E 14 4 1.0 3 6.54 12 15 4
136NDS E EAV=2791 34$CK=0.0558 18$CL=0.0078 3$CM+=0.00222 8
136ND L 1231.6 4 (3)+
136ND G 370.0 5 540 50 [M1,E2] 0.034 6 C
136NDS G KC=0.028 6$LC=0.00435 22$MC=0.00093 4$NC=0.000207 9$OC=3.06E-5 23$
136NDS G PC=1.7E-6 5
136ND G 858.0 3 1.68E+310 E2+M1 0.00409 C
136NDS G KC=0.0034 8$LC=0.00046 9$MC=9.8E-5 18$NC=2.2E-5 4$OC=3.3E-6 7$
136NDS G PC=2.1E-7 6
136ND E 2 LT0.1 LT7.3 GT 2 LT ?
136NDS E EAV=2668 34$CK=0.0627 21$CL=0.0087 3$CM+=0.00249 9
136ND L 1539.8 9 (4+)
136ND G 678.0 8 370 30 C
136ND E 6.3 6 0.59 6 6.69 6 6.9 7
136NDS E EAV=2521 34$CK=0.073 3$CL=0.0101 4$CM+=0.00289 10
136ND L 1746.8 5 6+
136ND G 770.4 3 960 45 E2 0.00400 C
136NDS G KC=0.00338 5$LC=0.000488 7$MC=0.0001039 15$NC=2.31E-5 4$OC=3.45E-6 5$
136NDS G PC=2.03E-7 3
136ND E 13.9 121.45 136.27 5 15.3 13
136NDS E EAV=2422 34$CK=0.080 3$CL=0.0112 4$CM+=0.00320 12
136ND L 1927.6 11
136ND G 696.0 10 540 30 C
136ND E 9.1 6 1.05 8 6.39 5 10.1 7
136NDS E EAV=2336 34$CK=0.088 4$CL=0.0123 5$CM+=0.00351 13
136ND L 2035.9 6 (5-)
136ND G 1059.7 5 735 40 D C
136ND E 11.5 9 1.42 126.24 5 12.9 10
136NDS E EAV=2285 34$CK=0.093 4$CL=0.0130 5$CM+=0.00371 14
136ND L 2046.6 4 (5+)
136ND G 815.0 3 1650 80 Q C
136ND G 1070.0 8 140 20 C
136ND E 17.6 172.19 236.05 6 19.8 19
136NDS E EAV=2280 34$CK=0.094 4$CL=0.0131 5$CM+=0.00373 14
136ND L 2349.4 7
136ND G 302.8 5 730 30 C
136ND E 11.9 7 1.78 136.10 5 13.7 8
136NDS E EAV=2136 34$CK=0.110 5$CL=0.0154 6$CM+=0.00439 18
136ND L 2440.4 6 (7-)
136ND G 404.5 2 44 9 E2 0.0213 S
136NDF G FLAG=C
136NDS G KC=0.01735 25$LC=0.00309 5$MC=0.000669 10$NC=0.0001478 21$
136NDS G OC=2.13E-5 3$PC=9.95E-7 14
136ND G 693.0 10 140 20 [E1] 0.00193 C
136NDS G KC=0.001662 24$LC=0.000213 3$MC=4.49E-5 7$NC=1.002E-5 15$
136NDS G OC=1.516E-6 22$PC=9.76E-8 14
136ND E 3.0 4 0.48 7 6.65 8 3.5 5
136NDS E EAV=2093 34$CK=0.116 5$CL=0.0162 7$CM+=0.00461 19