Deuteron Stripping on Nuclei at Intermediate Energies

TL;DR

This paper derives a comprehensive analytical formula for inclusive deuteron stripping cross sections at intermediate energies, utilizing Glauber formalism and realistic deuteron wave functions, and validates it against experimental data.

Contribution

It introduces a new analytical expression for the double differential cross section of deuteron stripping reactions, incorporating realistic wave functions and Glauber theory.

Findings

Calculated angular cross sections agree well with experiments.

The approach effectively models nucleon-nucleus interactions at intermediate energies.

The method provides a reliable tool for analyzing deuteron-induced reactions.

Abstract

A general analytical expression for the double differential cross section of inclusive deuteron stripping reaction on nuclei at intermediate energies of incident particles was obtained in the diffraction approximation. Nucleon-nucleus phases were calculated in the framework of Glauber formalism and making use of the double-folding potential. The exact wave function of deuteron with correct asymptotics at short and long distances between nucleons was used. The calculated angular dependencies of cross sections are in good agreement with corresponding experimental data.