Dispersion and Scaling Law of Dynamic Hysteresis Based on the   Landau-Lifshitz-Gilbert Model

Siying Liu; Hongyi Zhang; and Hao Yu

arXiv:1602.05375·cond-mat.mtrl-sci·February 18, 2016·1 cites

Dispersion and Scaling Law of Dynamic Hysteresis Based on the Landau-Lifshitz-Gilbert Model

Siying Liu, Hongyi Zhang, and Hao Yu

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TL;DR

This paper investigates the dispersion and scaling laws of dynamic hysteresis using the Landau-Lifshitz-Gilbert model, revealing linear relationships and energy dissipation characteristics through numerical simulations.

Contribution

It introduces a numerical analysis of hysteresis dispersion and scaling laws based on the LLG model, highlighting new linear relations and energy dissipation insights.

Findings

01

Energy dissipation W(η) = A(f, H0) determined

02

Linear relation between hysteresis area and external field magnitude

03

Hysteresis evolution characterized under oscillating fields

Abstract

Hysteresis dispersion under a varying external field Hex is investigated through numerical simulations based on the Landau-Lifshitz-Gilbert (LLG) equation, indicating the energy dissipation can be determined by W({\eta}) = A (f, H0). A linear relation between area of hysteresis and magnitude of external field is discovered. Evolution of hysteresis is also investigated under oscillating external field.

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Taxonomy

TopicsChemical and Physical Properties of Materials · Semiconductor materials and devices · Spectroscopy and Quantum Chemical Studies