From Quantum Oscillators to Landau-Fock-Darwin model: A Statistical   Thermodynamical Study

Jishad Kumar; Ebad Kamil

arXiv:1010.1205·cond-mat.stat-mech·March 29, 2016

From Quantum Oscillators to Landau-Fock-Darwin model: A Statistical Thermodynamical Study

Jishad Kumar, Ebad Kamil

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TL;DR

This paper provides a statistical thermodynamical analysis of quantum oscillators and the Landau-Fock-Darwin model using the canonical ensemble to explore their equilibrium properties.

Contribution

It introduces a comprehensive thermodynamical framework for analyzing quantum systems like oscillators and the Landau-Fock-Darwin model, which is less explored in existing literature.

Findings

01

Derived thermodynamical properties of quantum oscillators

02

Analyzed equilibrium states of the Landau-Fock-Darwin model

03

Provided insights into quantum system behavior at equilibrium

Abstract

The aim of this tutorial is to analyze the equilibrium properties of some simple but widely used quantum systems. The canonical ensemble is used to evaluate the required properties here.

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Taxonomy

TopicsAdvanced Thermodynamics and Statistical Mechanics · Spectroscopy and Quantum Chemical Studies · Quantum Information and Cryptography