Microscopic analysis of p^{10}B scattering at the intermediate energies

TL;DR

This paper calculates differential cross sections for p^{10}B scattering at intermediate energies using Glauber theory, considering multiple scattering effects, and compares results with experimental data and DWBA calculations.

Contribution

It provides a detailed microscopic analysis of p^{10}B scattering at intermediate energies, incorporating multiple scattering and shell-specific proton contributions.

Findings

Good agreement with experimental data at 197 MeV

Adequate description of cross-sections at front angles

Inclusion of double collisions improves model accuracy

Abstract

The differential cross sections of the p^{10}B scattering at energies of 197, 600 and 1000 MeV have been calculated within the framework of the Glauber theory. The operator of multiple scattering takes into account the contributions of single and double collisions. The contributions from protons scattering on the nucleons of different shells have been estimated in the single-scattering cross-section. The comparison with the experiment at 197 MeV and with DWBA calculation showed the adequate description of cross-sections in the region of the front angles.