arxiv:1812.05428

Fermionic Casimir effect in a field theory model with Lorentz symmetry violation

Published on Apr 15, 2019

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Abstract

The Casimir energy and pressure for a massive fermionic field between parallel plates are calculated using MIT bag boundary conditions in a CPT-even, aether-like Lorentz symmetry violating quantum field theory model.

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In this paper, we evaluate the Casimir energy and pressure for a massive fermionic field confined in the region between two parallel plates. In order to implement this confinement we impose the standard MIT bag boundary on the plates for the fermionic field. In this paper we consider a quantum field theory model with a CPT even, aether-like Lorentz symmetry violation. It turns out that the fermionic Casimir energy and pressure depend on the direction of the constant vector that implements the Lorentz symmetry breaking.

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