电阻率两种机制之间的相互作用

Anton Kapustin, Gregory Falkovich
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引用次数: 0

摘要

电阻率的机理可分为两个基本类别:一类是耗散型(如声子散射),另一类是准弹性型(如静态杂质散射)。人们通常用经验马特西森法则来处理它们,该法则认为总电阻率只是这两种贡献的总和,而这两种贡献是分别计算的。这种说法有两个误导性。首先,这两种机制通常是相关的。其次,单独计算弹性电阻率掩盖了一个基本事实,即线性响应近似在耗散消失时有一个消失的有效区间。零电场和零耗散的极限并不相等,原因很简单,我们需要吸收焦耳热量与所施加电场的二次方。在此,我们提出一个简单的模型来说明这两点。该模型还阐明了变分原理在非平衡稳态中的作用。
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Interplay between two mechanisms of resistivity
Mechanisms of resistivity can be divided into two basic classes: one is dissipative (like scattering on phonons) and another is quasi-elastic (like scattering on static impurities). They are often treated by the empirical Matthiessen rule, which says that total resistivity is just the sum of these two contributions, which are computed separately. This is quite misleading for two reasons. First, the two mechanisms are generally correlated. Second, computing the elastic resistivity alone masks the fundamental fact that the linear-response approximation has a vanishing validity interval at vanishing dissipation. Limits of zero electric field and zero dissipation do not commute for the simple reason that one needs to absorb the Joule heat quadratic in the applied field. Here, we present a simple model that illustrates these two points. The model also illuminates the role of variational principles for non-equilibrium steady states.
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