Temperature Dependent Structure Function Of Nucleon

A.Bhattacharya; A.Sagari; B.Chakrabarti; S.Mani

arXiv:0812.3556·hep-ph·December 19, 2008

Temperature Dependent Structure Function Of Nucleon

A.Bhattacharya, A.Sagari, B.Chakrabarti, S.Mani

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TL;DR

This paper investigates how the structure and size of the nucleon change with temperature, deriving relations between temperature, Fermi momentum, and nucleon radius, and comparing results with existing data.

Contribution

It introduces a new relation connecting temperature, Fermi momentum, and nucleon radius, and analyzes temperature effects on the nucleon's structure functions.

Findings

01

Nucleon radius increases with temperature

02

Temperature-dependent F2 structure function analyzed

03

Fermi momentum estimates align with theoretical and experimental data

Abstract

A relation between temperature, Fermi momentum and radius of the nucleon has been derived. The percentage increase in radii of the nucleon with temperature and the temperature dependent F $_{2}$ structure function of the nucleon have been investigated. An estimate of the Fermi momentum of the nucleon has been made. The results are found to be in agreement with existing theoretical and experimental suggestions .

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Taxonomy

TopicsSuperconducting Materials and Applications · Nuclear physics research studies · Quantum and Classical Electrodynamics