High-Temperature Anyon Superconductivity

Efrain J. Ferrer; Rene Hurka; Vivian de la Incera (SUNY)

arXiv:hep-th/9602042·hep-th·June 26, 2015

High-Temperature Anyon Superconductivity

Efrain J. Ferrer, Rene Hurka, Vivian de la Incera (SUNY)

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TL;DR

This paper investigates the magnetic screening properties of a charged anyon fluid at finite density and temperature, revealing potential high-temperature superconductivity characterized by dual penetration lengths.

Contribution

It demonstrates that charged anyon fluids can exhibit superconductivity at any temperature, with a detailed analysis of Meissner screening involving two eigenmodes.

Findings

01

Anyon fluid shows superconducting behavior at all temperatures.

02

Two distinct penetration lengths characterize the Meissner screening.

03

Potential implications for high-temperature superconductor models.

Abstract

The screening of an applied magnetic field in the charged anyon fluid at finite density and temperature is investigated. For densities typical of high-temperature superconducting materials we find that the anyon fluid exhibits a superconducting behavior at any temperature. The total Meissner screening is characterized by two penetration lengths corresponding to two short-range eigenmodes of propagation within the anyon fluid.

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