Thermal properties of a solid through q-deformed algebra

A. A. Marinho; F. A. Brito; C. Chesman

arXiv:1109.0570·cond-mat.stat-mech·May 30, 2015

Thermal properties of a solid through q-deformed algebra

A. A. Marinho, F. A. Brito, C. Chesman

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TL;DR

This paper investigates how q-deformed algebra modifies the thermal and electric properties of crystalline solids, providing insights into disorder effects in semiconductors using Einstein and Debye models.

Contribution

It introduces a q-deformed algebra approach to analyze thermodynamic properties of solids, linking deformation to disorder and impurity effects.

Findings

01

q-deformation influences thermal and electric conductivities

02

q acts as a disorder or impurity factor

03

Modifications align with semiconductor behavior

Abstract

We address the study of the thermodynamics of a crystalline solid by applying q-deformed algebras. We based part of our study by considering both Einstein and Debye models. We have mainly explored the q-deformed thermal and electric conductivities as a function of the Debye specific heat. The results led to the interpretation of the q-deformation acting as a factor of disorder or impurity modifying the characteristics of a crystalline structure as, for example, in the case of semiconductors.

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