Symmetry factors of Feynman diagrams for scalar fields

A Mathematica implementation of the program LERG-I is presented that performs the reduction of tensor integrals, encountered in one-loop Feynman diagram calculations, to scalar integrals. The program was originally coded in REDUCE and in that incarnation was applied to a number of problems of physic

Present and future high-precision tests of the Standard Model and beyond for the fundamental constituents and interactions in Nature are demanding complex perturbative calculations involving multi-leg and multi-loop Feynman diagrams. Currently, large e ort is devoted to the search for closed express

A general algorithm which generates all the topologically distinct, linked, non-Hartree-Fock vacuum and Greenfunction Hugenholtz-type diagrams is presented. Both the particle-hole and particle-particleGreen-functions are considered. The one-particle Green function diagrams are not treated separately

Programming languages used: FORTRAN IV High speed store required: 46k bytes. No. of bits hi a byte: 8 Is the program overlaid? No No. of magnetic tapes required: None Other peripherals used? Card reader, printer No. of cards in combined program and test deck: 879