Boundary Effects in 2+1 Dimensional Maxwell-Chern-Simons Theory

E. J. Ferrer; V. de la Incera (SUNY at Fredonia)

arXiv:hep-th/9609097·hep-th·October 30, 2009

Boundary Effects in 2+1 Dimensional Maxwell-Chern-Simons Theory

E. J. Ferrer, V. de la Incera (SUNY at Fredonia)

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TL;DR

This paper investigates how boundaries affect magnetic field screening in a 2+1 dimensional Maxwell-Chern-Simons model, revealing total Meissner effect in half-plane samples and partial penetration in strip samples.

Contribution

It provides new insights into boundary effects on magnetic screening in Maxwell-Chern-Simons theories at finite temperature.

Findings

01

Total Meissner effect occurs in half-plane geometry.

02

Partial magnetic field penetration in strip geometry.

03

Boundary conditions significantly influence magnetic screening.

Abstract

The boundary effects in the screening of an applied magnetic field in a finite temperature 2+1 dimensional model of charged fermions minimally coupled to Maxwell and Chern-Simons fields are investigated. It is found that in a sample with only one boundary -a half-plane- a total Meissner effect takes place, while in a sample with two boundaries -an infinite strip- the external magnetic field partially penetrates the material.

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