Asymptotic behaviour of the lattice Green function

Pub Date : 2021-01-12 DOI:10.30757/alea.v19-38
Emmanuel Michta, G. Slade
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引用次数: 10

Abstract

The lattice Green function, i.e., the resolvent of the discrete Laplace operator, is fundamental in probability theory and mathematical physics. We derive its long-distance behaviour via a detailed analysis of an integral representation involving modified Bessel functions. Our emphasis is on the decay of the massive lattice Green function in the vicinity of the massless (critical) case, and the recovery of Euclidean isotropy in the massless limit. This provides a prototype for the expected but unproven long-distance behaviour of near-critical two-point functions in statistical mechanical models such as percolation, the Ising model, and the self-avoiding walk above their upper critical dimensions.
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格格林函数的渐近性质
晶格格林函数,即离散拉普拉斯算子的解,是概率论和数学物理的基础。我们通过对包含修正贝塞尔函数的积分表示的详细分析,推导出它的远距离行为。我们的重点是在无质量(临界)情况附近的质量晶格格林函数的衰减,以及在无质量极限下欧几里得各向同性的恢复。这为统计力学模型(如渗透、Ising模型和自避行走)中近临界两点函数的预期但未经证实的长距离行为提供了一个原型。
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