Vacuum effects in an asymptotically uniformly accelerated frame with a   constant magnetic field

Victor M. Villalba; Juan Mateu

arXiv:hep-th/9910072·hep-th·October 31, 2009

Vacuum effects in an asymptotically uniformly accelerated frame with a constant magnetic field

Victor M. Villalba, Juan Mateu

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TL;DR

This paper investigates particle creation in an accelerated frame with a magnetic field by solving quantum equations and analyzing the resulting particle densities, revealing the magnetic field's influence and the thermal nature of the spectrum.

Contribution

It provides a novel analysis of vacuum effects in an accelerated frame with a magnetic field by solving Dirac-Pauli and Klein-Gordon equations and computing particle creation rates.

Findings

01

Magnetic field influences particle creation rates.

02

The spectrum exhibits thermal characteristics.

03

Particle densities are computed using Bogoliubov coefficients.

Abstract

In the present article we solve the Dirac-Pauli and Klein Gordon equations in an asymptotically uniformly accelerated frame when a constant magnetic field is present. We compute, via the Bogoliubov coefficients, the density of scalar and spin 1/2 particles created. We discuss the role played by the magnetic field and the thermal character of the spectrum.

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