Influence of density dependence of symmetry energy on fragmentation
Karan Singh Vinayak, Mohinder Singh, Suneel Kumar
TL;DR
This paper investigates how the density dependence of symmetry energy affects nuclear fragmentation, using isospin-dependent QMD simulations and comparing with experimental data.
Contribution
It introduces the analysis of density-dependent symmetry energy influence on fragmentation within the isospin-dependent QMD model.
Findings
Enhanced cross-section explains experimental IMF data.
Density dependence of symmetry energy impacts fragment production.
Results support soft equation of state assumptions.
Abstract
The fragmentation of projectile and spectator is studied at the different incident energies using isospin dependent QMD model with reduced isospin dependent cross-section. Different systems have been used for the analysis of fragment production(IMF). We have used enhanced constant isospin dependent cross-section to explain the experimental findings which is valid for soft equation of state. In addition to that we have tried to study the influence of density dependent symmetry energy on fragment production.
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Taxonomy
TopicsNuclear physics research studies · High-Velocity Impact and Material Behavior · Ion-surface interactions and analysis