96Y     96SR B- DECAY                 1981JU02                  08NDS    200810
 96Y   H TYP=FUL$AUT=D. Abriola(a), A.A. Sonzogni$CIT=NDS 109, 2501 (2008)$
 96Y 2 H CUT=1-Apr-2008$
 96Y  C  Measured: |g, |g|g, |g|g(|q), ce (1981Ju02); |g, |b|g
 96Y aC  ((1975Ba36,1975Gu03); |g(1979Bo26); |b|g (1980De02,1979Pe17,1978St02)
 96Y  CG M$|a(K)exp were normalized to |a(K)(E2) for 815|g in {+96}Sr
 96Y aCG (1981Ju02)
 96Y  CL T$T<0.5 ns has been found for all |g's.
 96Y  CG E$From 1981Ju02 if not noted otherwise.
 96Y  CG E(A)$Measured with a high-resolution curved-crystal spectrometer
 96Y aCG (1979Bo26).
 96Y  CG M$From |g|g(|q) and |a(K)exp (1981Ju02).
 96Y  CG MR$From |g|g(|q) (1981Ju02) if not noted otherwise
 96Y  CL $|b-decays of {+96}Y were reported with two half-lives. However, it
 96Y aCL is not known which is due to the ground state, or how large the
 96Y aCL excitation energy is
 96Y  CB IB$From intensity imbalance
 96Y  D  CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
 96Y  D  CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
 96Y  D  CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
 96SR  P 0           0+                1.07 S    1              5415      12
 96Y   N 0.765     12          1.0       1.0
 96Y  CN NR$If %I|b(g.s.)=1.3 {I13} as deduced from log| {Ift}>5.9
 96Y   L 0.0         0-                5.34 S    5
 96Y   B             2.6     LT          5.9     GT                            ?
 96Y X B EAV=2423.4 58
 96Y  CB IB$if log| {Ift}>5.9
 96Y   L 122.297   3 1-                203 PS    6
 96Y   G 122.297   3 100.00  5 M1                      0.1043
 96Y X G FLAG=A
 96Y S G KC=0.0917 13$LC=0.01053 15$MC=0.00180 3$NC=0.000242 4$OC=1.650E-5 23$
 96Y S G NC+=0.000258 4
 96Y  CG M$|a(K)exp=0.088 {I10}
 96Y   B             2.4     29          5.9     6                             ?
 96Y X B EAV=2364.5 58
 96Y   L 652.29    6 2-                21 PS     LE
 96Y   G 530.0     1 11.7    5 M1+E2     -0.11   +3-4  0.002544
 96Y S G KC=0.00224 4$LC=0.000247 4$MC=4.22E-5 6$NC=5.68E-6 9$OC=3.98E-7 6$
 96Y S G NC+=6.08E-6 9
 96Y  CG M$|a(K)exp=0.0023 {I4}
 96Y   G 652.3     1 0.6     2 [E2]                    0.001833
 96Y S G KC=0.001612 23$LC=0.000182 3$MC=3.10E-5 5$NC=4.14E-6 6$OC=2.78E-7 4$
 96Y S G NC+=4.42E-6 7
 96Y   B             0.5     6           8.1     6                           1U?
 96Y X B EAV=2103.7 58
 96Y   L 718.70    8 1(+),2(+)
 96Y   G 596.4     1 1.2     2
 96Y   B             0.13    22          6.9     8                             ?
 96Y X B EAV=2077.6 58
 96Y   L 931.70    3 1+                21 PS     LE
 96Y   G 213.0     1 1.0     2 M1(+E2)   0.0     4     0.024  6
 96Y S G KC=0.021 6$LC=0.0024 8$MC=0.00041 13$NC=5.5E-5 16$OC=3.8E-6 8$
 96Y S G NC+=5.8E-5 17
 96Y  CG M$|a(K)exp=0.021 {I6}
 96Y  CG MR$from |a(K)exp only.
 96Y   G 279.4     1 10.8    5 E1+M2     -0.05   2     0.0056615
 96Y S G KC=0.00500 13$LC=0.000550 15$MC=9.4E-5 3$NC=1.25E-5 4$OC=8.45E-7 24$
 96Y S G NC+=1.34E-5 4
 96Y  CG M$|a(K)exp=0.0045 {I4}
 96Y   G 809.40    3 94.0    30E1(+M2)   0.00    1     4.1e-4 6
 96Y X G FLAG=A
 96Y S G KC=0.000362 5$LC=3.91E-5 6$MC=6.67E-6 10$NC=8.97E-7 13$OC=6.26E-8 9$
 96Y S G NC+=9.60E-7 14
 96Y  CG M$|a(K)exp=0.00036 {I4}
 96Y  CG $RI=62% (1989WaZV)
 96Y   G 931.7     1 15.4    10
 96Y   B             92      3           3.997   16
 96Y X B EAV=1975.2 58
 96Y   L 1287.89   170,1
 96Y   G 356.0     2 0.7     1
 96Y   G 1166.0    5 0.10    5
 96Y   B             0.27    9           6.37    15
 96Y X B EAV=1804.3 58
 96Y   L 1983.58   181+
 96Y   G 695.4     3 0.45    5
 96Y   G 1052.6    7 0.5     2
 96Y   G 1331.6    4 0.8     2
 96Y   G 1861.3    5 0.2     1
 96Y   G 1983.5    3 2.5     3
 96Y   B             3.4     4           4.92    6
 96Y X B EAV=1471.6 58