A PATCHWORK QUILT SEWN FROM BROWNIAN FABRIC: REGULARITY OF POLYMER WEIGHT PROFILES IN BROWNIAN LAST PASSAGE PERCOLATION

IF 2.8 1区数学 Q1 MATHEMATICS

Forum of Mathematics Pi Pub Date : 2017-09-13 DOI:10.1017/fmp.2019.2

A. Hammond

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引用次数: 49

Abstract

In last passage percolation models lying in the Kardar–Parisi–Zhang (KPZ) universality class, the energy of long energy-maximizing paths may be studied as a function of the paths’ pair of endpoint locations. Scaled coordinates may be introduced, so that these maximizing paths, or polymers, now cross unit distances with unit-order fluctuations, and have scaled energy, or weight, of unit order. In this article, we consider Brownian last passage percolation in these scaled coordinates. In the narrow wedge case, when one endpoint of such polymers is fixed, say at $(0,0)\in \mathbb{R}^{2}$ , and the other is varied horizontally, over $(z,1)$ , $z\in \mathbb{R}$ , the polymer weight profile as a function of $z\in \mathbb{R}$ is locally Brownian; indeed, by Hammond [‘Brownian regularity for the Airy line ensemble, and multi-polymer watermelons in Brownian last passage percolation’, Preprint (2016), arXiv:1609.02971, Theorem 2.11 and Proposition 2.5], the law of the profile is known to enjoy a very strong comparison to Brownian bridge on a given compact interval, with a Radon–Nikodym derivative in every $L^{p}$ space for $p\in (1,\infty )$ , uniformly in the scaling parameter, provided that an affine adjustment is made to the weight profile before the comparison is made. In this article, we generalize this narrow wedge case and study polymer weight profiles begun from a very general initial condition. We prove that the profiles on a compact interval resemble Brownian bridge in a uniform sense: splitting the compact interval into a random but controlled number of patches, the profile in each patch after affine adjustment has a Radon–Nikodym derivative that lies in every $L^{p}$ space for $p\in (1,3)$ . This result is proved by harnessing an understanding of the uniform coalescence structure in the field of polymers developed in Hammond [‘Exponents governing the rarity of disjoint polymers in Brownian last passage percolation’, Preprint (2017a), arXiv:1709.04110] using techniques from Hammond (2016) and [‘Modulus of continuity of polymer weight profiles in Brownian last passage percolation’, Preprint (2017b), arXiv:1709.04115].

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用布朗织物缝制的拼布被子:布朗末道渗透中聚合物重量剖面的规律性

在kardar - paris - zhang (KPZ)普适类渗流模型中，可以将长能量最大化路径的能量作为路径端点位置对的函数来研究。可以引入缩放坐标，使这些最大化路径或聚合物现在跨越单位距离，具有单位阶波动，并且具有单位阶的缩放能量或重量。在本文中，我们考虑在这些标度坐标下的布朗末道渗流。在窄楔的情况下，当这种聚合物的一个端点是固定的，比如在$(0,0)\in \mathbb{R}^{2}$，而另一个端点是水平变化的，在$(z,1)$, $z\in \mathbb{R}$上，聚合物重量曲线作为$z\in \mathbb{R}$的函数是局部布朗函数;事实上，根据哈蒙德['艾里线系综的布朗正则性，以及布朗末道渗透中的多聚合物水资源'，Preprint (2016)， arXiv:1609.02971，定理2.11和命题2.5]，已知剖面定律在给定紧区间上与布朗桥具有很强的比较，在$p\in (1,\infty )$的每个$L^{p}$空间中都有Radon-Nikodym导数，均匀地在标度参数中，只要在进行比较之前对重量轮廓进行仿射调整。在本文中，我们推广了这种窄楔形情况，并从一个非常一般的初始条件开始研究聚合物的重量分布。我们证明了紧致区间上的轮廓在一致意义上类似于布朗桥:将紧致区间分割成随机但数量可控的斑块，每个斑块上的轮廓在仿射平差后具有一个Radon-Nikodym导数，该导数位于$p\in (1,3)$的每个$L^{p}$空间。这一结果是通过对Hammond开发的聚合物领域的均匀聚结结构的理解来证明的[“控制布朗末道渗流中不相交聚合物的稀有度的指数”，Preprint (2017a)， arXiv:1709.04110]，使用了Hammond(2016)和[“布朗末道渗流中聚合物质量分布的连续性模数”，Preprint (2017b)， arXiv:1709.04115]的技术。

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来源期刊

Forum of Mathematics Pi Mathematics-Statistics and Probability

CiteScore

3.50

自引率

0.00%

发文量

审稿时长

19 weeks

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