Statistical thermodynamics of the diced lattice

Norman J.M. Horing; M.L. Glasser; Jay D. Mancini

arXiv:2008.05113·cond-mat.mes-hall·August 13, 2020

Statistical thermodynamics of the diced lattice

Norman J.M. Horing, M.L. Glasser, Jay D. Mancini

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TL;DR

This paper investigates the statistical thermodynamics of the diced lattice using Green's function methods to analyze thermodynamic potentials, partition functions, and entropy in different statistical regimes.

Contribution

It introduces a Green's function approach to study thermodynamics of the diced lattice, covering both degenerate and nondegenerate regimes.

Findings

01

Calculated grand potential, Helmholtz free energy, and entropy.

02

Analyzed specific heat in different statistical regimes.

03

Provided a comprehensive thermodynamic framework for the diced lattice.

Abstract

In this work we analyze the statistical thermodynamics of Diced lattice carriers employing a Greens function formulation to examine the grand potential, Helmholtz free energy, the grand and ordinary partition functions and entropy. This facilitates the calculation of the specific heat, and all evaluations are carried out for both the degenerate and nondegenerate statistical regimes.

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Taxonomy

TopicsTopological Materials and Phenomena · Graphene research and applications · Quantum many-body systems