DIRECT NUCLEON-NUCLEON COLLISIONS INSIDE THE NUCLEUS ACCORDING TO THE IMPULSE APPROXIMATION

Abstract

Direct N-N collisions play an important role in highenergy nuclear reactions. The importance of such collisions at lower energies is not clear. To aid in the interpretation of nuclear reactions, analyses were made of the collisions between an incident nucleon and nucleons in a Fermi gas by the impulse approximation. The treatment is based on information from N-N scattering experiments. Collisions inside a nucleus are considered the same as those in the unbound state at the same center-of-mass energy, except for the effect of the Pauli exclusion principle. The effective elastic and inelastic cross section, ( sigma ), between like and unlike nucleons is computed for incident energies from 10 Mev to 6 Bev at several values of the Fermi energy. The properties of the struck nucleons in allowed collisions are calculated. This information may prove useful in interpreting some recoil experiments. Analytical expressions for ( sigma ) and quantities related to the struck nucleon are given for elastic collisions in which the scattering is isotropic and the free-particle cross sections are either constant or vary inversely as the bombarding energy. (auth)