The Study of Mass Distribution of products in 7.0 AMeV U238+U238 Collisions

TL;DR

This paper investigates the mass distribution of products from U238+U238 collisions at 7.0 AMeV using a combined quantum molecular dynamics and statistical decay model, comparing results with experimental data.

Contribution

It introduces a combined ImQMD and statistical decay model approach to study collision outcomes and validate against experimental measurements.

Findings

Mass distribution of final products matches experimental data

Primary fragment distributions are characterized within the model

De-excitation processes are effectively described by the statistical decay model

Abstract

Within the Improved Quantum Molecular Dynamics (ImQMD) Model incorporating the statistical decay Model, the reactions of U238+U238 at the energy of 7.0 AMeV have been studied. The charge, mass and excitation energy distributions of primary fragments are investigated within the ImQMD model and de-excitation processes of those primary fragments are described by the statistical decay model. The mass distribution of the final products in U238+U238 collisions is obtained and compared with the recent experimental data.