Calculation and evaluation of cross-sections for p+184W reactions up to 200MeV

TL;DR

This paper calculates and evaluates proton-induced reaction cross-sections on tungsten-184 up to 200MeV using various nuclear models, comparing results with experimental data to improve understanding of nuclear reactions.

Contribution

It introduces a comprehensive theoretical approach combining multiple nuclear models to analyze p+184W reactions up to 200MeV, validated against experimental data.

Findings

Calculated reaction cross-sections and angular distributions match experimental data.

The models effectively predict energy spectra and double differential cross sections.

The study enhances the accuracy of nuclear reaction modeling for tungsten-184.

Abstract

The cross-sections of proton-induced reactions on 184W at incident proton energy below 200MeV are calculated and analyzed including reaction cross-sections, elastic scattering angular distributions, energy spectra and double differential cross section. Nuclear theoretical models which integrate the optical model, distorted born wave approximation theory, the intra-nuclear cascade model, the exciton model, the Hauser-Feshbach theory and the evaporation model are used in the reactions. Theoretical results are compared with the existent experimental data.