多粒子系统中的热卡西米尔相互作用:散射通道方法

arXiv - PHYS - Atomic and Molecular Clusters Pub Date : 2023-07-20 DOI:arxiv-2307.10570

Yang Li, Kimball A. Milton, Iver Brevik

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引用次数: 0

摘要

从基于多重散射过程的角度出发，主要从卡西米尔熵的角度研究了多粒子热卡西米尔相互作用。详细描述了散射路径的几何形状，并展示了不同类型的通道，即横向通道，纵向通道和混合通道的贡献。路径的几何形状会强烈地影响路径中每个通道的权重。多粒子卡西米尔熵的负性和非单调性是常见的，其来源是多种多样的，包括路径的几何形状、极化混合的类型、每个粒子的极化率等。多粒子散射的热贡献在体系中是显著的，而零温度多粒子散射效应不显著。简要探讨了从多粒子结构到连续体的极限行为。

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Thermal Casimir interactions in multi-particle systems: scattering channel approach

Multi-particle thermal Casimir interactions are investigated, mostly in terms of the Casimir entropy, from the point of view based on multiple-scattering processes. The geometry of the scattering path is depicted in detail, and the contributions from different types of channels, namely the transverse, longitudinal and mixing channels, are demonstrated. The geometry of the path can strongly influence the weight of each channel in the path. Negativity and nonmonotonicity are commonly seen in the multi-particle Casimir entropy, the sources of which are diverse, including the geometry of the path, the types of polarization mixing, the polarizability of each particle, etc. Thermal contributions from multi-particle scatterings can be significant in the system, while the zero-temperature multi-particle scattering effects are insignificant. Limiting behaviors from a multi-particle configuration to a continuum are briefly explored.

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arXiv - PHYS - Atomic and Molecular Clusters

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