Influence of nucleon-nucleon collisions on multi-fragmentation and nuclear flow

TL;DR

This thesis investigates how nucleon-nucleon collisions influence multi-fragmentation, nuclear flow, and related phenomena in intermediate energy heavy-ion collisions, emphasizing the roles of Coulomb interactions, nuclear equations of state, and mass asymmetry.

Contribution

It provides a theoretical analysis of the effects of nucleon-nucleon collisions on fragmentation and flow phenomena, considering Coulomb forces, NEOS, and asymmetry in heavy-ion collisions.

Findings

Nucleon-nucleon collisions significantly affect multi-fragmentation.

Coulomb interactions influence nuclear flow patterns.

Mass asymmetry alters rapidity distributions.

Abstract

The present thesis deals with the theoretical study of multi-fragmentation and its related phenomena's like directed transverse flow, rapidity distribution, elliptical flow and nuclear stopping in intermediate energy heavy-ion collisions for asymmetric colliding nuclei. We aim to discuss the role of Coulomb interactions, nuclear equations of state (NEOS) and various rapidity bins by taking mass asymmetry into account.