Effect of different Gaussian width on disappearance of flow

Rajni; Suneel Kumar

arXiv:1108.1003·nucl-th·August 5, 2011

Effect of different Gaussian width on disappearance of flow

Rajni, Suneel Kumar

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TL;DR

This paper investigates how varying the scaled Gaussian width by 30% affects the balance energy in nuclear systems, providing insights into the role of Gaussian width in nuclear flow phenomena.

Contribution

It introduces a systematic study of the impact of scaled Gaussian width variations on nuclear flow behavior, which has not been extensively explored before.

Findings

01

Alteration of Gaussian width influences balance energy significantly.

02

Enhanced or reduced Gaussian width modifies flow disappearance thresholds.

03

Results suggest Gaussian width is a key parameter in nuclear flow models.

Abstract

In the present paper, we reduce and enhance the scaled Gaussian width(SGW) by 30% from the normal SGW of the systems and see its effect on balance energy. The scaled Gaussian width can be defined as the ratio of Gaussian width used for any nuclei to the Gaussian width used for Au nuclei(i.e. 8.66 $f m^{2}$ ).

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Taxonomy

TopicsFlow Measurement and Analysis