Confrontation of QMD model with the experimental data for $^{40}Ar$ +$^{45}$Sc, $^{197}Au$ +$^{197}$Au and $^{129}Xe$ +$^{119}$Sn reactions

TL;DR

This paper compares quantum molecular dynamics model calculations with experimental data for specific nuclear reactions, analyzing charge distributions and fragment multiplicities across different energies, showing good agreement.

Contribution

It demonstrates the effectiveness of the quantum molecular dynamics model in accurately predicting experimental outcomes for various nuclear reactions.

Findings

Good agreement between model and experimental data

Charge distribution and fragment multiplicity are well reproduced

Model performs consistently across different reactions and energies

Abstract

In the present work, we make confrontation of our theoretical calculations using quantum molecular dynamics model with the experimental data for the reactions of $^{40}Ar$ +$^{45}$Sc, $^{197}Au$ +$^{197}$Au and $^{129}Xe$ +$^{119}$Sn at different incident energies. In these reactions, we display the charge distribution and energy dependence of fragments multiplicity. Our results indicate good agreement with the experimental data for all the reactions.