Landau-Lifschitz magnets: exact thermodynamics and transport

Alvise Bastianello, Žiga Krajnik, Enej Ilievski
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Abstract

The classical Landau--Lifshitz equation -- the simplest model of a ferromagnet -- provides an archetypal example for studying transport phenomena. In one-spatial dimension, integrability enables the classification of the spectrum of linear and nonlinear modes. An exact characterization of finite-temperature thermodynamics and transport has nonetheless remained elusive. We present an exact description of thermodynamic equilibrium states in terms of interacting modes. This is achieved by retrieving the classical Landau--Lifschitz model through the semiclassical limit of the integrable quantum spin-$S$ anisotropic Heisenberg chain at the level of the thermodynamic Bethe ansatz description. In the axial regime, the mode spectrum comprises solitons with unconventional statistics, whereas in the planar regime we additionally find two special types of modes of radiative and solitonic type. The obtained framework paves the way for analytical study of unconventional transport properties: as an example we study the finite-temperature spin Drude weight, finding excellent agreement with Monte Carlo simulations.
兰道-利夫施齐茨磁体:精确热力学和传输
经典的朗道(Landau)--利夫希茨(Lifshitz)方程是最简单的铁磁体模型,它为研究输运现象提供了一个典型例子。尽管如此,对无限温热力学和输运的精确描述仍然是一个未知数。我们提出了相互作用模式间热力学平衡态的精确描述。这是通过在热力学贝特方差描述的水平上,通过可积分量子自旋-$S$各向异性海森堡链的半经典极限检索经典兰道--利夫施齐茨模型而实现的。在轴向体系中,模式谱包含具有非常规统计量的孤子,而在平面体系中,我们还发现了辐射型和孤子型两种特殊类型的模式。所获得的框架为非常规传输特性的分析研究铺平了道路:例如,我们研究了有限温度自旋德鲁德威,发现与蒙特卡罗模拟非常一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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