Sine-Gordon low-energy effective theory for Copper Benzoate

Fabian H.L. Essler

arXiv:cond-mat/9811309·cond-mat.str-el·October 31, 2009

Sine-Gordon low-energy effective theory for Copper Benzoate

Fabian H.L. Essler

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TL;DR

This paper analyzes the specific heat data of Copper Benzoate using a Sine-Gordon low-energy effective theory, providing insights into its quantum magnetic properties.

Contribution

It introduces a Sine-Gordon effective theory to describe the low-energy behavior of Copper Benzoate, linking experimental data to theoretical modeling.

Findings

01

Successful fit of specific heat data with Sine-Gordon model

02

Identification of low-energy excitations consistent with theory

03

Enhanced understanding of quantum magnetism in Copper Benzoate

Abstract

Specific heat data for the quasi one dimensional quantum magnet Copper Benzoate (Cu(C_6D_5COO)_2 \cdot 3D_2O) is analyzed in the framework of an effective low-energy description in terms of a Sine-Gordon theory.

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