A multivariate extension of the Erdős–Taylor theorem

IF 1.5 1区 数学 Q2 STATISTICS & PROBABILITY
Dimitris Lygkonis, Nikos Zygouras
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Abstract

The Erdős–Taylor theorem (Acta Math Acad Sci Hungar, 1960) states that if \(\textsf{L}_N\) is the local time at zero, up to time 2N, of a two-dimensional simple, symmetric random walk, then \(\tfrac{\pi }{\log N} \,\textsf{L}_N\) converges in distribution to an exponential random variable with parameter one. This can be equivalently stated in terms of the total collision time of two independent simple random walks on the plane. More precisely, if \(\textsf{L}_N^{(1,2)}=\sum _{n=1}^N \mathbb {1}_{\{S_n^{(1)}= S_n^{(2)}\}}\), then \(\tfrac{\pi }{\log N}\, \textsf{L}^{(1,2)}_N\) converges in distribution to an exponential random variable of parameter one. We prove that for every \(h \geqslant 3\), the family \( \big \{ \frac{\pi }{\log N} \,\textsf{L}_N^{(i,j)} \big \}_{1\leqslant i<j\leqslant h}\), of logarithmically rescaled, two-body collision local times between h independent simple, symmetric random walks on the plane converges jointly to a vector of independent exponential random variables with parameter one, thus providing a multivariate version of the Erdős–Taylor theorem. We also discuss connections to directed polymers in random environments.

Abstract Image

厄尔多斯-泰勒定理的多元扩展
厄多斯-泰勒定理(Acta Math Acad Sci Hungar, 1960)指出,如果 \(textsf{L}_N\) 是二维简单对称随机游走的零点到时间 2N 的局部时间,那么 \(\tfrac\pi }\{log N} \,\textsf{L}_N\)在分布上收敛于参数为一的指数随机变量。这可以等价地用平面上两个独立简单随机行走的总碰撞时间来表示。更准确地说,如果 \(\textsf{L}_N^{(1,2)}=\sum _{n=1}^N \mathbb {1}_{\{S_n^{(1)}= S_n^{(2)}\}}), 那么 \(\tfrac\pi }{log N}\, \textsf{L}^{(1,2)}_N\) 在分布上收敛于参数为一的指数型随机变量。我们证明,对于每一个(h ),族( ( \big \{ \frac\pi }{\log N}\,\textsf{L}^{(1,2}_N} )的分布都收敛于参数为一的指数随机变量。\平面上 h 个独立的简单、对称随机游走之间的对数重标的、两体碰撞局部时间的族共同收敛于参数为 1 的独立指数随机变量向量,从而提供了厄尔多斯-泰勒定理的多变量版本。我们还讨论了与随机环境中的有向聚合物的联系。
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来源期刊
Probability Theory and Related Fields
Probability Theory and Related Fields 数学-统计学与概率论
CiteScore
3.70
自引率
5.00%
发文量
71
审稿时长
6-12 weeks
期刊介绍: Probability Theory and Related Fields publishes research papers in modern probability theory and its various fields of application. Thus, subjects of interest include: mathematical statistical physics, mathematical statistics, mathematical biology, theoretical computer science, and applications of probability theory to other areas of mathematics such as combinatorics, analysis, ergodic theory and geometry. Survey papers on emerging areas of importance may be considered for publication. The main languages of publication are English, French and German.
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