近可积分动力学的广义 BBGKY 层次结构

Leonardo Biagetti, Maciej Lebek, Milosz Panfil, Jacopo De Nardis
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引用次数: 0

摘要

我们考虑量子或经典多体哈密顿系统,其动力学由可积分的接触相互作用以及另一个可能是长程的通用两体势能给出。我们展示了局部观测值的动力学是如何通过波哥留布夫-伯恩-格林-柯克伍德-伊冯层次的广义版本给出的,我们将其命名为 gBBGKY,它是为底层可积分模型的准粒子的密度及其相关性而建立的。与来自自由气体的扰动理论的通常情况不同,可积分模型中局部相互作用的存在 "解除 "了所谓的动力学阻塞,层次结构的第二层产生了所有时间尺度上的动力学。后者包括快速预弛豫到非热稳态,以及随后的热化到吉布斯集合。我们展示了最终的弛豫如何被编码为涉及三个或更高体散射的波尔兹曼散射积分,而且值得注意的是,它完全由底层可积分模型的扩散常数决定。我们用精确的分子动力学模拟检验了我们的结果,发现两者完全一致。我们的结果表明,gBBGKY 可以成功地应用于量子系统,以计算散射积分和费米金科玉律转换率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Generalised BBGKY hierarchy for near-integrable dynamics
We consider quantum or classical many-body Hamiltonian systems, whose dynamics is given by an integrable, contact interactions, plus another, possibly long-range, generic two-body potential. We show how the dynamics of local observables is given in terms of a generalised version of Bogoliubov-Born-Green-Kirkwood-Yvon hierarchy, which we denote as gBBGKY, which is built for the densities, and their correlations, of the quasiparticles of the underlying integrable model. Unlike the usual cases of perturbation theory from free gases, the presence of local interactions in the integrable model "lifts" the so-called kinetic blocking, and the second layer of the hierarchy reproduces the dynamics at all time-scales. The latter consists of a fast pre-equilibration to a non-thermal steady state, and its subsequent thermalisation to a Gibbs ensemble. We show how the final relaxation is encoded into a Boltzmann scattering integral involving three or higher body-scatterings, and which, remarkably, is entirely determined by the diffusion constants of the underlying integrable model. We check our results with exact molecular dynamics simulations, finding perfect agreement. Our results show how gBBGKY can be successfully employed in quantum systems to compute scattering integrals and Fermi's golden rule transition rates.
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