TENDL-2017 Nuclear data library

Neutron sub-library for Cu (Z=29) and A=69: Tabular production and total cross sections

Production and total cross sections

Reaction #	⁶⁹Cu(n,x)a	⁶⁹Cu(n,x)d	⁶⁹Cu(n,el)	⁶⁹Cu(n,x)g	⁶⁹Cu(n,x)he3	⁶⁹Cu(n,a)	⁶⁹Cu(n,d)	⁶⁹Cu(n,g)	⁶⁹Cu(n,h)	⁶⁹Cu(n,inl)

Reaction #	⁶⁹Cu(n,non)	⁶⁹Cu(n,x)n	⁶⁹Cu(n,p)	⁶⁹Cu(n,t)	⁶⁹Cu(n,x)p	⁶⁹Cu(other)	⁶⁹Cu(n,tot)	⁶⁹Cu(n,x)t

Reaction #

Reaction #

Reaction #

Reaction #

Reaction #

Reaction #

Reaction #

Reaction #

Reaction #

Reaction #

Reaction #

Reaction #

Reaction #

Partial cross sections

Reaction #	⁶⁹Cu(n,g)	⁶⁹Cu(n,a)	⁶⁹Cu(n,2a)	⁶⁹Cu(n,3a)

Reaction #	⁶⁹Cu(n,He3)	⁶⁹Cu(n,He3+a)	⁶⁹Cu(n,t)	⁶⁹Cu(n,t+a)

Reaction #	⁶⁹Cu(n,t+2a)	⁶⁹Cu(n,t+He3)	⁶⁹Cu(n,d)	⁶⁹Cu(n,d+a)

Reaction #	⁶⁹Cu(n,d+2a)	⁶⁹Cu(n,d+He3)	⁶⁹Cu(n,d+t)	⁶⁹Cu(n,d+t+a)

Reaction #	⁶⁹Cu(n,2d)	⁶⁹Cu(n,2d+a)	⁶⁹Cu(n,2d+t)	⁶⁹Cu(n,p)

Reaction #	⁶⁹Cu(n,p+a)	⁶⁹Cu(n,p+2a)	⁶⁹Cu(n,p+He3)	⁶⁹Cu(n,p+He3+a)

Reaction #	⁶⁹Cu(n,p+t)	⁶⁹Cu(n,p+t+a)	⁶⁹Cu(n,p+d)	⁶⁹Cu(n,p+d+a)

Reaction #	⁶⁹Cu(n,p+d+t)	⁶⁹Cu(n,p+2d)	⁶⁹Cu(n,2p)	⁶⁹Cu(n,2p+a)

Reaction #	⁶⁹Cu(n,2p+He3)	⁶⁹Cu(n,2p+t)	⁶⁹Cu(n,2p+d)	⁶⁹Cu(n,3p)

Reaction #	⁶⁹Cu(n,n)	⁶⁹Cu(n,n+a)	⁶⁹Cu(n,n+2a)	⁶⁹Cu(n,n+3a)

Reaction #	⁶⁹Cu(n,n+He3)	⁶⁹Cu(n,n+He3+a)	⁶⁹Cu(n,n+t)	⁶⁹Cu(n,n+t+a)

Reaction #	⁶⁹Cu(n,n+t+2a)	⁶⁹Cu(n,n+t+He3)	⁶⁹Cu(n,n+d)	⁶⁹Cu(n,n+d+a)

Reaction #	⁶⁹Cu(n,n+d+2a)	⁶⁹Cu(n,n+d+He3)	⁶⁹Cu(n,n+d+t)	⁶⁹Cu(n,n+d+t+a)

Reaction #	⁶⁹Cu(n,n+2d)	⁶⁹Cu(n,n+2d+a)	⁶⁹Cu(n,n+2d+t)	⁶⁹Cu(n,n+p)

Reaction #	⁶⁹Cu(n,n+p+a)	⁶⁹Cu(n,n+p+2a)	⁶⁹Cu(n,n+p+He3)	⁶⁹Cu(n,n+p+t)

Reaction #	⁶⁹Cu(n,n+p+t+a)	⁶⁹Cu(n,n+p+d)	⁶⁹Cu(n,n+p+d+a)	⁶⁹Cu(n,n+p+d+t)

Reaction #	⁶⁹Cu(n,n+p+2d)	⁶⁹Cu(n,n+2p)	⁶⁹Cu(n,n+2p+a)	⁶⁹Cu(n,n+2p+t)

Reaction #	⁶⁹Cu(n,n+2p+d)	⁶⁹Cu(n,n+3p)	⁶⁹Cu(n,2n)	⁶⁹Cu(n,2n+a)

Reaction #	⁶⁹Cu(n,2n+2a)	⁶⁹Cu(n,2n+3a)	⁶⁹Cu(n,2n+He3)	⁶⁹Cu(n,2n+He3+a)

Reaction #	⁶⁹Cu(n,2n+t)	⁶⁹Cu(n,2n+t+a)	⁶⁹Cu(n,2n+t+2a)	⁶⁹Cu(n,2n+t+He3)

Reaction #	⁶⁹Cu(n,2n+d)	⁶⁹Cu(n,2n+d+a)	⁶⁹Cu(n,2n+d+2a)	⁶⁹Cu(n,2n+d+He3)

Reaction #	⁶⁹Cu(n,2n+d+t)	⁶⁹Cu(n,2n+d+t+a)	⁶⁹Cu(n,2n+2d)	⁶⁹Cu(n,2n+2d+a)

Reaction #	⁶⁹Cu(n,2n+p)	⁶⁹Cu(n,2n+p+a)	⁶⁹Cu(n,2n+p+2a)	⁶⁹Cu(n,2n+p+He3)

Reaction #	⁶⁹Cu(n,2n+p+t)	⁶⁹Cu(n,2n+p+t+a)	⁶⁹Cu(n,2n+p+d)	⁶⁹Cu(n,2n+p+d+a)

Reaction #	⁶⁹Cu(n,2n+p+d+t)	⁶⁹Cu(n,2n+p+2d)	⁶⁹Cu(n,2n+2p)	⁶⁹Cu(n,2n+2p+a)

Reaction #	⁶⁹Cu(n,2n+2p+t)	⁶⁹Cu(n,2n+2p+d)	⁶⁹Cu(n,2n+3p)	⁶⁹Cu(n,3n)

Reaction #	⁶⁹Cu(n,3n+a)	⁶⁹Cu(n,3n+2a)	⁶⁹Cu(n,3n+3a)	⁶⁹Cu(n,3n+He3)

Reaction #	⁶⁹Cu(n,3n+He3+a)	⁶⁹Cu(n,3n+t)	⁶⁹Cu(n,3n+t+a)	⁶⁹Cu(n,3n+t+He3)

Reaction #	⁶⁹Cu(n,3n+d)	⁶⁹Cu(n,3n+d+a)	⁶⁹Cu(n,3n+d+He3)	⁶⁹Cu(n,3n+d+t)

Reaction #	⁶⁹Cu(n,3n+2d)	⁶⁹Cu(n,3n+p)	⁶⁹Cu(n,3n+p+a)	⁶⁹Cu(n,3n+p+2a)

Reaction #	⁶⁹Cu(n,3n+p+He3)	⁶⁹Cu(n,3n+p+t)	⁶⁹Cu(n,3n+p+t+a)	⁶⁹Cu(n,3n+p+d)

Reaction #	⁶⁹Cu(n,3n+p+d+a)	⁶⁹Cu(n,3n+2p)	⁶⁹Cu(n,3n+2p+a)	⁶⁹Cu(n,3n+2p+t)

Reaction #	⁶⁹Cu(n,3n+2p+d)	⁶⁹Cu(n,3n+3p)