Dynamic Phase Transitions for Ferromagnetic Systems
Tian Ma, Shouhong Wang
TL;DR
This paper develops a phenomenological theory for dynamic phase transitions in ferromagnetic systems, providing detailed descriptions of transition behaviors and predictions for spontaneous magnetization, with implications for fluctuation asymmetry.
Contribution
It introduces a new phenomenological framework for understanding dynamic phase transitions in ferromagnetism, including predictions on fluctuation asymmetry.
Findings
Precise description of dynamic transitions in ferromagnetism
Prediction of spontaneous magnetization behavior
Asymmetry of fluctuations in ferromagnetic and PVT systems
Abstract
This article presents a phenomenological dynamic phase transition theory for ferromagnetism, leading to a precise description of the dynamic transitions, and to a physical predication on the spontaneous magnetization. The analysis also suggests asymmetry of fluctuations in both the ferromagnetism and the PVT systems.
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Taxonomy
TopicsTheoretical and Computational Physics · Advanced Thermodynamics and Statistical Mechanics · Magnetic Properties and Applications