80BR    80BR IT DECAY (4.4205 H)      1972DE67,1970NE11,1960SC0405NDS    200508
 80BR  H TYP=FUL$AUT=BALRAJ SINGH$CIT=NDS 105, 223 (2005)$CUT=22-Jun-2005$
 80BR c  T{-1/2}({+80}Br isomer): 2003Al36, 1990Ab06, 1969Ka06, 1968Re04,
 80BR2c  1961Ha32, 1960Sc04, 1957Ki21. Others: 1958Gu09, 1951Mi16, 1939Bo05,
 80BR3c  1938Bu04, 1937Sn02, 1937Bo10
 80BR c  Production and identification of {+80}Br isomer: 1950Ka72,
 80BR2c  1948Wo08, 1947Se33, 1939Se03, 1936Al01, 1935Am01
 80BR c  |g: 1990Ab06, 1972De67, 1970Ne11, 1960Sc04, 1952Mi38. Others:
 80BR2c  1960Ho16, 1958Ch34, 1954Li19, 1952Ha14, 1950Ro07, 1950Li07, 1939Va02
 80BR c  ce: 1980MeZY, 1960Sc04, 1960Ho16, 1950Li07, 1950Ro07, 1944Be07
 80BR c  |g|g(t), ce|g(t): 1966Tu02, 1965Hu02, 1964Fl01, 1951Wr13
 80BR c  |g|g(|q,H,t): 1978Ta24
 80BR c  Hyperfine structure and moments: 1964Wh05, 1959Li21
 80BR c  ce ce(|q): 1956Br96, 1955Sh91, 1954La34
 80BR cG RI$From I(|g+ce) and |a (with 3% uncertainty for |a),
 80BR2cG I|g(48)/I|g(37)=0.0087 {I6} (1960Sc04), 0.0081 {I3} (from level scheme)
 80BR cL J$From 'adopted levels'
 80BR  P 85.902    30 5-                4.4205 H 8
 80BR  N  1.0         1.0      1.0
 80BR PN                                                                     2
 80BR  L  0.0         1+
 80BR  L 37.052    2  2-                7.43 NS  6
 80BR cL T$from |g|g(t) (1978Ta24). Other values from ce|g(t):
 80BR2cL 7.43 ns {I25} (1966Tu02), 7.4 ns {I3} (1965Hu02), 7.37 ns {I21}
 80BR3cL (1964Fl01), |<4 ns (1951Wr13)
 80BR2 L MOME2=0.173 6 (1978TA24)
 80BR  G 37.052    2  39.1   8  E1                       1.56    100         C
 80BR cG E$from 1970Ne11 (bent-crystal spectrometer measurement).
 80BR2cG Others: 37.07 {I3} (1972De67), 1960Sc04, 1950Li07, 1939Va02
 80BR cG M$from |a measurements. |g|g(|q) and ce-ce(|q) data
 80BR2cG are also consistent with this assignment
 80BR cG CC$1.59 {I10} (1960Sc04). Others: 1950Li07, 1950Ro07, 1944Be07.
 80BRS G KC=  1.375   $LC= 0.1548   $MC=0.02441
 80BR  L 85.902    30 5-                4.4205 H 8                           M
 80BR cL T$from 1990Ab06. Others: 4.754 h {I32} at room temperature and
 80BR2cL 4.791 h {I34} at 77|'K (2003Al36); 4.42 {I1} (1969Ka06),
 80BR3cL 4.42 {I1} (1968Re04), 4.37 {I4} (1961Ha32), 4.40 {I5} (1960Sc04),
 80BR4cL 4.38 {I2} (1957Ki21), 1958Gu09, 1951Mi16, 1938Bu04, 1937Sn02,
 80BR5cL 1937Bo10. It should be noted that the value obtained by 2003Al36 is
 80BR6cL quoted with 0.7% uncertainty but is about 7.5% too high as compared
 80BR7cL to the other values in the literature; thus not used in deducing
 80BR8cL the adopted value. Weighted average of all the values quoted above
 80BR9cL but with uncertainty increased to 0.01 for the value from 1990Ab06,
 80BRAcL is 4.43 H 3
 80BR2 L MOMM1=+1.3177 6$ MOME2=+0.76 3(1964WH05)
 80BR  G 48.85     3   0.317 9  M3                         308   100         C
 80BR cG E$from 1972De67. Others: 1960Sc04, 1954Li19, 1950Li07, 1950Ro07,
 80BRxcG 1939Va02
 80BR cG M$from |a value. |g|g(|q) and ce-ce(|q) data are consistent
 80BR2cG with M3 and E1 assignments to 49 and 37 transitions, respectively
 80BR cG CC$ 298 {I11} (1992Ch25), 314 {I13} (1980MeZY); from relative
 80BR2cG intensities of x-rays and |g-rays.
 80BR cG EKC$ |a(K)exp=210 {I21} (1992Ch25), 208 {I8} (1980MeZY). Others:
 80BR2cG |a(K)exp=298 {I30} (1960Sc04), Ice(L1)/Ice(L3)=1.00 {I25} (1952Mi38),
 80BR3cG 1952Ha14, 1950Li07.
 80BRS G KC=  223.4   $LC=   69.2   $MC=  11.72
 80BR cG           (49|g)(37|g)(|q): A{-2}=-0.125 {I23} (1978Ta24). (49
 80BR2cG ce)(37ce) (|q): A{-2}=0.28 (1955Sh91), 0.292 {I24} (1956Br96)