晶格能量扩散的一般多波准共振理论

Wei Lin, Weicheng Fu, Zhen Wang, Yong Zhang, Hong Zhao
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引用次数: 0

摘要

在这封信中,我们建立了一个多波准共振框架来分析经典晶格中的能量扩散,发现能量扩散从根本上说是由特征模的特性决定的。也就是说,根据扩展模的存在和不存在,晶格可分为两个普遍性类别,其热化行为有着本质的区别。特别是,我们发现在热力学极限下,有扩展模的晶格可以在任意弱的扰动下热化,而另一类晶格只有在扰动超过一定阈值时才能热化,这首次揭示了晶格不能热化的可能性,违反了统计力学的假设。我们的研究最终解决了著名的弱扰动下大型系统的费米-帕斯塔-乌兰-钦古(Fermi-Pasta-Ulam-Tsingou)问题,强调了扩展模式和局部模式在促进能量扩散和热化过程中的关键作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A general multi-wave quasi-resonance theory for lattice energy diffusion
In this letter, a multi-wave quasi-resonance framework is established to analyze energy diffusion in classical lattices, uncovering that it is fundamentally determined by the characteristics of eigenmodes. Namely, based on the presence and the absence of extended modes, lattices fall into two universality classes with qualitatively different thermalization behavior. In particular, we find that while the one with extended modes can be thermalized under arbitrarily weak perturbations in the thermodynamic limit, the other class can be thermalized only when perturbations exceed a certain threshold, revealing for the first time the possibility that a lattice cannot be thermalized, violating the hypothesis of statistical mechanics. Our study addresses conclusively the renowned Fermi-Pasta-Ulam-Tsingou problem for large systems under weak perturbations, underscoring the pivotal roles of both extended and localized modes in facilitating energy diffusion and thermalization processes.
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