随机表面保形焊接SLE的可积性

IF 3.1 1区 数学 Q1 MATHEMATICS
Morris Ang, Nina Holden, Xin Sun
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引用次数: 0

摘要

我们证明了如何从Liouville共形场论(LCFT)和Liouville量子引力(LQG)的树框架匹配中获得Schramm-Loewner演化(SLE)的可积性结果。特别地,我们证明了SLE经典变体的保角导数定律的一个精确公式,称为SLEκ(ρ−;ρ+)$\算子名{SLE}_\kappa(\rho-;\rho+)$。我们的证明建立在SLE、LCFT和树木交配之间的两个联系上。首先,LCFT和树的匹配为描述LQG中的自然随机曲面提供了等价但互补的方法。使用一种新的工具,我们称之为LQG曲面的均匀嵌入,我们通过允许更少的标记点和更多的一般奇点来扩展早期的等价结果。其次,这些随机表面的保角焊接产生SLE曲线作为它们的界面。特别是,我们依赖于我们的配套论文Ang、Holden和Sun(2023)中证明的保形焊接结果。我们的论文是证明SLE、LCFT和基于这两个连接的树的匹配的可积性结果的程序的重要部分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integrability of SLE via conformal welding of random surfaces

We demonstrate how to obtain integrability results for the Schramm-Loewner evolution (SLE) from Liouville conformal field theory (LCFT) and the mating-of-trees framework for Liouville quantum gravity (LQG). In particular, we prove an exact formula for the law of a conformal derivative of a classical variant of SLE called SLE κ ( ρ ; ρ + ) $\operatorname{SLE}_\kappa (\rho _-;\rho _+)$ . Our proof is built on two connections between SLE, LCFT, and mating-of-trees. Firstly, LCFT and mating-of-trees provide equivalent but complementary methods to describe natural random surfaces in LQG. Using a novel tool that we call the uniform embedding of an LQG surface, we extend earlier equivalence results by allowing fewer marked points and more generic singularities. Secondly, the conformal welding of these random surfaces produces SLE curves as their interfaces. In particular, we rely on the conformal welding results proved in our companion paper Ang, Holden and Sun (2023). Our paper is an essential part of a program proving integrability results for SLE, LCFT, and mating-of-trees based on these two connections.

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来源期刊
CiteScore
6.70
自引率
3.30%
发文量
59
审稿时长
>12 weeks
期刊介绍: Communications on Pure and Applied Mathematics (ISSN 0010-3640) is published monthly, one volume per year, by John Wiley & Sons, Inc. © 2019. The journal primarily publishes papers originating at or solicited by the Courant Institute of Mathematical Sciences. It features recent developments in applied mathematics, mathematical physics, and mathematical analysis. The topics include partial differential equations, computer science, and applied mathematics. CPAM is devoted to mathematical contributions to the sciences; both theoretical and applied papers, of original or expository type, are included.
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