On the study of phase-space analysis of fragments produced in heavy-ion   collisions

Sakshi Gautam; Preeti Bansal

arXiv:1108.0237·nucl-th·April 1, 2012

On the study of phase-space analysis of fragments produced in heavy-ion collisions

Sakshi Gautam, Preeti Bansal

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TL;DR

This paper investigates how momentum-dependent interactions and Gaussian width affect fragment emission and structure in heavy-ion collisions, revealing that nucleons in fragments occupy the same phase space region.

Contribution

It introduces a detailed phase-space analysis of fragment formation considering momentum-dependent interactions and Gaussian width effects in heavy-ion reactions.

Findings

01

Nucleons in fragments occupy the same phase space region.

02

Broader Gaussian and momentum-dependent interactions influence fragment emission.

03

Structural details of fragments are affected by interaction parameters.

Abstract

Effect of momentum-dependent interactions and broader Gaussian is investigated on the emission of various fragments formed in a heavy-ion reaction. We also study the corresponding structure details of those fragments for broader Gaussian and momentum-dependent interactions. We find that nucleons forming the fragments belong to same region of the phase space

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Taxonomy

TopicsNuclear physics research studies · Cold Atom Physics and Bose-Einstein Condensates · High-Energy Particle Collisions Research