由相空间最大口径原理导出的刘维尔定理

arXiv: Classical Physics Pub Date : 2016-02-08 DOI:10.1063/1.4959044

Diego L. Gonz'alez, S. Davis

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引用次数: 3

摘要

非平衡统计力学(NESM)的基石之一是Liouville定理，它是相空间概率ρ(q, p;这通常是通过或多或少的启发式论证，考虑到物理系统(由原子组成)的给定表面的流入或流出。在这项工作中，我们推导出Liouville方程作为控制随时间变化的概率ρ(q, p;t)在t时刻相空间的特定点(q, p)中找到具有拉格朗日L(q,q˙t)的“粒子”，p=∂L/∂q˙。这个推导只依赖于对连续路径空间的推理的考虑。由于其通用性，我们的结果不仅适用于“物理”系统，而且适用于任何依赖于位置和速度受限信息的模型，例如时间序列。

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Liouville’s theorem from the principle of maximum caliber in phase space

One of the cornerstones in non–equilibrium statistical mechanics (NESM) is Liouville’s theorem, a differential equation for the phase space probability ρ(q, p; t). This is usually derived considering the flow in or out of a given surface for a physical system (composed of atoms), via more or less heuristic arguments.In this work, we derive the Liouville equation as the partial differential equation governing the dynamics of the time-dependent probability ρ(q, p; t) of finding a “particle” with Lagrangian L(q,q˙;t) in a specific point (q, p) in phase space at time t, with p=∂L/∂q˙. This derivation depends only on considerations of inference over a space of continuous paths. Because of its generality, our result is valid not only for “physical” systems but for any model depending on constrained information about position and velocity, such as time series.

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arXiv: Classical Physics

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