Isospin effects in disappearance of flow as a function of colliding   geometry

Sakshi Gautam; Aman D. Sood; and Rajeev K. Puri

arXiv:1102.4483·nucl-th·February 23, 2011

Isospin effects in disappearance of flow as a function of colliding geometry

Sakshi Gautam, Aman D. Sood, and Rajeev K. Puri

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TL;DR

This paper investigates how isospin influences the balance energy in nuclear collisions across various masses and geometries, highlighting Coulomb repulsion as the dominant factor affecting these effects.

Contribution

It provides a comprehensive analysis of isospin effects on balance energy across a wide mass range and different collision geometries, emphasizing Coulomb repulsion's role.

Findings

01

Coulomb repulsion dominates isospin effects on E_bal

02

Isospin effects vary with colliding geometry

03

Mass dependence of E_bal is influenced by isospin

Abstract

We study the effect of isospin degree of freedom on the balance energy (E $_{ba l}$ ) as well as its mass dependence throughout the mass range 48-270 for two sets of isobaric systems with N/Z = 1 and 1.4 at different colliding geometries ranging from central to peripheral ones. Our findings reveal the dominance of Coulomb repulsion in isospin effects on E $_{ba l}$ as well as its mass dependence throughout the range of the colliding geometry.

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Taxonomy

TopicsQuantum, superfluid, helium dynamics · Scientific Research and Discoveries · Astro and Planetary Science