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引用次数: 0
摘要
我们推导出在不同温度下维持两个热源的最小熵率表达式。该定律对相对距离具有直观的$\ well ^{-1}$依赖性,对边界温度具有特征的$\log^2 (T_\ well /T_0)$依赖性。首先,我们给出了一个基于傅立叶定律(FL)的粗略论证,表明最小耗散曲线是指数型的。然后我们重新审视一个振子链的模型,每个振子都耦合到一个热源。在大阻尼的极限下,我们重新获得了指数和平方对数行为,提供了一个自一致的FL推导。对于小阻尼,“均分挫折”导致了众所周知的弹道行为,其与FL的不相容带来了长期的挑战。
We derive an expression for the minimal rate of entropy that sustains two reservoirs at different temperatures $T_0$ and $T_\ell$. The law displays an intuitive $\ell^{-1}$ dependency on the relative distance and a characterisic $\log^2 (T_\ell/T_0)$ dependency on the boundary temperatures. First we give a back-of-envelope argument based on the Fourier Law (FL) of conduction, showing that the least-dissipation profile is exponential. Then we revisit a model of a chain of oscillators, each coupled to a heat reservoir. In the limit of large damping we reobtain the exponential and squared-log behaviors, providing a self-consistent derivation of the FL. For small damping "equipartition frustration" leads to a well-known balistic behaviour, whose incompatibility with the FL posed a long-time challenge.
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