# A phenomenological thermodynamic potential for DyCo$_2$

**Authors:** Dongyan Zhang, Chao Zhou, Sen Yang, Zhimin Li, Xiaoping Song

arXiv: 1704.05209 · 2017-04-19

## TL;DR

This paper develops a Landau phenomenological thermodynamic model for DyCo2, accurately describing its magnetic transition behaviors and properties such as ferromagnetic transition temperature and magnetization curves.

## Contribution

It introduces an eight-order polynomial Landau expansion based on symmetry analysis to model DyCo2's thermodynamic behavior, including metamagnetic transitions.

## Key findings

- Successfully reproduces ferromagnetic transition temperature
- Accurately models magnetization curves and temperature dependence
- Predicts the metamagnetic transition near the Curie temperature

## Abstract

A phenomenological thermodynamic potential was constructed based on the symmetry analysis and property characterization of bulk DyCo2. An eight-order polynomial of Landau expansion was employed to describe the thermodynamic behavior of DyCo2. Several properties were reproduced including ferromagnetic transition temperature, magnetization curve, temperature dependence of magnetization. The transition behavior was analyzed via the thermodynamic potential. The Landau phenomenological thermodynamic model predicts the correct metamagnetic transition near the Curie temperature.

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Source: https://tomesphere.com/paper/1704.05209