3H 2H(N,G) E=THERMAL: {~EGAF} 3H c Evaluated Gamma-ray Activation File (EGAF). 3H 2c Evaluated by R.B. Firestone (LBNL), December 2003. 3H c BR$|s{-0}=0.000519 7 from 1981MuZQ. 3H cG RI$Elemental |s(|g) assuming %Abundance=0.0115 70 3H N 1.0 3H PN C 3H 2PN Thermal cross section in barns. 3H cN NR$Isotopic |s(|g)=NR*RI. 3H 2cN Divide by |s{-0} for intensity per neutron capture. 3H L 0.0 1/2+ 12.33 Y 6 3H L 6257.2482 241/2+,3/2+ 3H G 6250.243 3 0.000519 7 3H 2H(N,G) E=THERMAL:^BUDAPEST 3H c Budapest Reactor data measured with thermal beam. 3H cG RI$Elemental |s(|g) assuming %Abundance=0.0115 70 3H c Level scheme derived by evaluator from adopted levels and 1995Au04. 3H N 8700 AP 3H PN C 3H 2PN Thermal cross section in barns. 3H cN NR$I|g(g.s.)=100 3H cN BR$|s{-0}=0.000519 7 ( 3H L 0 1/2+ 3H L 6257.25 3H cL E$from 95Au04 3H G 6250.20 100.00049225 3H cG E$calculated from neutron separation energy of 95Au04 and corrected 3H 2cG for recoil. 3H 2H(N,G) E=THERMAL: ^L^A^N^L 1977MC05,1995AU04 3H c The intensity is assumed to be 100%. The upper limit for 3H Ac two gamma rays from this reaction is very low according to 3H Bc measurements and theory (McDonald et al., 1977) [1977Mc05]. The energy 3H Cc of the gamma ray is from Audi and Wapstra (1995) [1995Au04]. 3H N 1.0 3H PN C 3H 2PN Per 100 neutron captures. 3H L 0.0 1/2+ 3H L 6257.25 3H G 6250.30 100.000