# Temperature Dependence of the Entropy and Magnetic Moment of   Landau-Quantized Dichalcogenide Carriers in a Strong Magnetic Field

**Authors:** Norman J. Horing

arXiv: 1901.06422 · 2019-01-23

## TL;DR

This paper investigates how temperature and magnetic field influence the thermodynamic properties and magnetic moments of Landau-quantized Group VI Dichalcogenides, providing detailed analysis across different regimes.

## Contribution

It presents a comprehensive analysis of the temperature and magnetic field dependence of thermodynamic functions and magnetic moments in Landau-quantized Dichalcogenides, including degenerate and nondegenerate regimes.

## Key findings

- Thermodynamic functions depend on temperature and magnetic field in complex ways.
- Magnetic moments vary with temperature and magnetic field in different regimes.
- The study offers insights into the behavior of Dichalcogenides at low temperatures and high magnetic fields.

## Abstract

This work addresses the temperature dependence of the statistical thermodynamic functions of the Group VI Dichalcogenides in a quantizing magnetic field. These functions include the grand partition function, the ordinary partition function, the Helmholtz Free Energy and the entropy: Their dependencies on temperature and magnetic field strength are carefully examined, particularly in the degenerate regime and the approach to zero temperature, also in the nondegenerate regime. The joint dependence on magnetic field and temperature is also examined in the Dichalcogenide magnetic moment in both statistical regimes.

## Full text

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## Figures

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Source: https://tomesphere.com/paper/1901.06422