Dirac Equation at Finite Temperature

Xiang-Yao Wu; Bo-Jun Zhang; Xiao-Jing Liu; Nuo Ba; Yi-Heng Wu; Si-Qi; Zhang; Jing Wang; Chun-Hong Li

arXiv:1006.4066·physics.gen-ph·December 4, 2012

Dirac Equation at Finite Temperature

Xiang-Yao Wu, Bo-Jun Zhang, Xiao-Jing Liu, Nuo Ba, Yi-Heng Wu, Si-Qi, Zhang, Jing Wang, Chun-Hong Li

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TL;DR

This paper introduces a finite temperature Dirac equation that extends the relativistic quantum description of spin-1/2 particles to arbitrary temperatures, enabling new studies of relativistic quantum systems under thermal conditions.

Contribution

The paper proposes a novel finite temperature Dirac equation that generalizes the standard Dirac equation to include thermal effects for relativistic particles.

Findings

01

The finite temperature Dirac equation reduces to the standard Dirac equation at zero temperature.

02

It provides a theoretical framework for studying relativistic quantum systems at arbitrary temperatures.

03

The approach allows exploration of thermal effects in relativistic quantum phenomena.

Abstract

In this paper, we propose finite temperature Dirac equation, which can describe the quantum systems in an arbitrary temperature for a relativistic particle of spin-1/2. When the temperature T=0, it become Dirac equation. With the equation, we can study the relativistic quantum systems in an arbitrary temperature.

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