Stefan-Boltzmann law and Casimir effect for the scalar field in phase   space at finite temperature

R.G.G. Amorim; J. S da Cruz Filho; A.F. Santos; S.C. Ulhoa

arXiv:1807.03297·hep-th·July 11, 2018

Stefan-Boltzmann law and Casimir effect for the scalar field in phase space at finite temperature

R.G.G. Amorim, J. S da Cruz Filho, A.F. Santos, S.C. Ulhoa

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TL;DR

This paper investigates the Stefan-Boltzmann law and Casimir effect for a scalar field in phase space at finite temperature using Thermo Field Dynamics, providing insights into their behavior when projected into coordinate space.

Contribution

It introduces a phase space scalar field framework combined with TFD to analyze thermodynamic and quantum effects at finite temperature.

Findings

01

Derived phase space Stefan-Boltzmann law at finite temperature

02

Analyzed Casimir effect for scalar field in phase space

03

Projected results into coordinate space for physical interpretation

Abstract

In this paper we use the scalar field constructed in phase space to analyze the analogous Stefan-Boltzman law and Casimir effect both of them at finite temperature. The temperature is introduced by Thermo Field Dynamics (TFD) and the quantities are analyzed once projected in the coordinates space.

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Taxonomy

TopicsQuantum Electrodynamics and Casimir Effect · Advanced Thermodynamics and Statistical Mechanics · Quantum Mechanics and Applications