Finite temperature properties of the gauge theory of nonrelativistic   fermions

M.Onoda; I.Ichinose; and T.Matsui

arXiv:cond-mat/9605131·cond-mat·October 28, 2009

Finite temperature properties of the gauge theory of nonrelativistic fermions

M.Onoda, I.Ichinose, and T.Matsui

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TL;DR

This paper investigates the finite temperature behavior of a gauge theory describing nonrelativistic fermions, relevant to high-temperature superconductivity and quantum Hall systems, using RPA and ladder approximation methods.

Contribution

It provides a detailed analysis of the finite temperature properties of the gauge theory, applying RPA and ladder approximation techniques to systems of nonrelativistic fermions.

Findings

01

Characterizes the finite temperature phase behavior of the gauge theory.

02

Identifies key features relevant to high-Tc superconductivity.

03

Provides insights into electron interactions in Landau levels.

Abstract

We study the finite temperature properties of the gauge theory of nonrelativistic fermions by using RPA and ladder approximation. This gauge theory is relevant to two interesting systems: high-Tc superconductivity and electrons in the half-filled Landau level.

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