some delayed beta and gamma numbers for transx coupled sets. vitamin-j 42-group gamma structure. designed for endf/b-vi with its isotopic cross sections. heating is assumed to be in position 1. use a text editor to extract the desired materials, and to move the heating to a different position if desired. these lines can be used as edit input for transx11. ------------------------------------------------------------- 1 np 1.567e6 li6 / li6(np)he6 (806ms) 1 nd 1.567e6 li7 / li7(nd)he6 (806ms) 1 ng 9.383e6 li7 / li7(ng)li8 (838ms) 1 np 7.132e6 be9 / be9(np)li9 (178ms) 1 na 1.567e6 be9 / be9(na)he6 (806ms) 1 nd 9.383e6 be9 / be9(nd)li8 (838ms) 1 ng 6.547e6 b11 / b11(ng)b12 (20ms) -14 ng .0128 b11 / 4.438 1 np 4.652e6 b11 / b11(np)be11 (13.8s) -18 np .355 b11 / 2.125 -9 np .0448 b11 / 6.790 -11 np .0213 b11 / 5.851 -7 np .0190 b11 / 7.975 -13 np .0182 b11 / 4.666 1 na 9.383e6 b11 / b11(na)li8 (838ms) 1 np 6.547e6 cnat / cnat(np)b12 (20ms) 1 n2n 4.91e5 n14 / n14(n2n)n13 (10m) 1 ng 2.693e6 n15 / n15(ng)n16 (7.1s) -10 ng .688 n15 / 6.129 -8 ng .047 n15 / 7.115 1 np 2.871e6 n15 / n15(n)c15 (2.5s) -12 np .68 n15 / 5.298 1 na 6.547e6 n15 / n15(na)b12 (20ms) 1 np 2.693e6 o16 / o16(np)n16 (7.1s) -10 ng .688 o16 / 6.129 -8 ng .047 o16 / 7.115 1 ng 2.481e6 f19 / f19(ng)f20 (11s) -20 ng 1. f19 / 1.634 1 n2n 2.42e5 f19 / f19(n2n)f18 (1.8h) 1 np 1.742e6 f19 / f19(np)o19 (27s) -33 np .959 f19 / .197 -21 np .504 f19 / 1.357 -21 np .0264 f19 / 1.444 -20 np .0139 f19 / 1.554 1 na 2.693e6 f19 / f19(na)n16 (7.1s) -10 na .688 f19 / 6.129 -8 na .047 f19 / 7.115 1 np 1.902e6 na23 / na23(np)ne23 (37s) -30 np .329 na23 / .440 -20 np .099 na23 / 1.637 1 na 2.481e6 na23 / na23(na)f20 (11s) -20 na 1. na23 / 1.634 1 ng 1.242e6 al27 / al27(ng)al28 (2.2m) -19 ng 1. al27 / 1.779 1 np 7.02e5 al27 / al27(np)mg27 (9.5m) -24 np .72 al27 / .844 -23 np .29 al27 / 1.014 1 n2n 2.2e6 sinat / delayed heat and gammas for sinat 1 n2n 1.204e6 knat / knat(n2n)k38 (925ms) -18 .9986 knat / 2.168 1 n2n 2.559e6 canat / canat(n2n)ca39 (860ms) 1 ng 1.07e6 vnat / vnat(ng)v52 (3.75m) -21 ng 1. vnat / 1.434 1 np 8.68e5 vnat / vnat(np)ti51 (5.76m) -31 np .93 vnat / .320 -26 np .0118 vnat / .609 -24 np .069 vnat / .929 1 np 1.068e6 cr52 / cr52(np)v52 (3.75m) -23 np 1. cr52 / 1.434 1 nnp 1.068e6 cr53 / cr53(nnp)v52 (3.75m) -23 nnp 1. cr53 / 1.434 1 nd 1.068e6 cr53 / cr53(nd)v52 (3.75m) -23 nd 1. cr53 / 1.434 1 np 1.005e6 cr53 / cr53(np)v53 (1.6s) -23 np .90 cr53 / 1.006 -23 np .10 cr53 / 1.289 1 nh 8.68e5 cr53 / cr53(nhe3)ti51 (5.7m) -31 nh .93 cr53 / .320 -26 nh .0118 cr53 / .609 -24 nh .069 cr53 / .929 1 ng 1.101e6 cr54 / cr54(ng)cr55 (3.5m) 1 np 1.310e6 cr54 / cr54(np)v54 (50s) -24 .971 cr54 / .835 -24 .801 cr54 / .989 -18 .456 cr54 / 2.259 -19 .100 cr54 / 1.961 -20 .086 cr54 / 1.463 -19 .082 cr54 / 1.784 -19 .048 cr54 / 1.831 -21 .046 cr54 / 1.398 -19 .045 cr54 / 1.974 -27 .0423 cr54 / .563 -16 .040 cr54 / 3.383 -26 .036 cr54 / .639 -17 .035 cr54 / 2.963 -18 .030 cr54 / 2.394 1 nt 1.068e6 cr54 / cr54(nt)v52 (3.75m) -23 nt 1. cr54 / 1.434 1 nd 1.005e6 cr54 / cr54(nd)v53 (1.6s) -23 nd .90 cr54 / 1.006 -23 nd .10 cr54 / 1.289 1 nnp 1.005e6 cr54 / cr54(nnp)v53 (1.6s) -23 nnp .90 cr54 / 1.006 -23 nnp .10 cr54 / 1.289 1 nh 7.42e5 cr54 / cr54(nh)ti52 (1.7m) -xx nh .99 cr54 / .124 1 na 8.68e5 cr54 / cr54(na)ti51 (5.7m) -31 na .93 cr54 / .320 -26 na .0118 cr54 / .609 -24 na .069 cr54 / .929 1 np 1.101e6 mn55 / mn55(np)cr55 (3.5m) 1 nh 1.005e6 mn55 / mn55(nhe3)v53 (1.6s) -23 nh .90 mn55 / 1.006 -23 nh .10 mn55 / 1.289 1 na 1.068e6 mn55 / mn55(na)v52 (3.75m) -23 na 1. mn55 / 1.434 1 n2n 1.105e6 fe54 / fe54(n2n)fe53 (8.5m) -31 .42 fe54 / .378 1 np 1.100e6 fe57 / fe57(np)mn57 (1.45m) -41 np .107 fe57 / .014 -34 np .108 fe57 / .122 -26 np .0415 fe57 / .692 -31 np .0156 fe57 / .352 1 nh 1.101e6 fe57 / fe57(nh)cr55 (3.5m) 1 nh 1.100e6 co59 / co59(nhe3)mn57 (1.45m) -41 nh .107 co59 / .014 -34 nh .108 co59 / .122 -26 nh .0415 co59 / .692 -31 nh .0156 co59 / .352 1 n2n 1.280e6 cu63 / cu63(n2n)cu62 (9.7m) 1 ng 1.076e6 cu65 / cu65(ng)cu66 (5.1m) -23 ng .074 cu65 / 1.039