Thermodynamical Bethe Ansatz and Condensed Matter

Minoru Takahashi (Institute for Solid State Physics; University of; Tokyo)

arXiv:cond-mat/9708087·cond-mat.stat-mech·October 30, 2009

Thermodynamical Bethe Ansatz and Condensed Matter

Minoru Takahashi (Institute for Solid State Physics, University of, Tokyo)

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TL;DR

This paper introduces the thermodynamic Bethe ansatz method and applies it to various integrable models, providing insights into their low-temperature thermodynamics in condensed matter physics.

Contribution

It presents a comprehensive overview of the thermodynamic Bethe ansatz and applies it to several key models, highlighting its usefulness in condensed matter research.

Findings

01

Derived thermodynamic equations for delta function bosons

02

Analyzed the XXX, XXZ, and XYZ models using the Bethe ansatz

03

Showed the method's effectiveness for low-temperature thermodynamics

Abstract

The basics of the thermodynamic Bethe ansatz equation are given. The simplest case is repulsive delta function bosons, the thermodynamic equation contains only one unknown function. We also treat the XXX model with spin 1/2 and the XXZ model and the XYZ model. This method is very useful for the investigation of the low temperature thermodynamics of solvable systems.

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