Resurgent Stokes data for Painlevé equations and two-dimensional quantum (super) gravity

IF 1.2 3区 数学 Q1 MATHEMATICS Communications in Number Theory and Physics Pub Date : 2022-03-25 DOI:10.4310/cntp.2023.v17.n2.a5
Salvatore Baldino, R. Schiappa, M. Schwick, Roberto Vega
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引用次数: 2

Abstract

Resurgent-transseries solutions to Painleve equations may be recursively constructed out of these nonlinear differential-equations -- but require Stokes data to be globally defined over the complex plane. Stokes data explicitly construct connection-formulae which describe the nonlinear Stokes phenomena associated to these solutions, via implementation of Stokes transitions acting on the transseries. Nonlinear resurgent Stokes data lack, however, a first-principle computational approach, hence are hard to determine generically. In the Painleve I and Painleve II contexts, nonlinear Stokes data get further hindered as these equations are resonant, with non-trivial consequences for the interconnections between transseries sectors, bridge equations, and associated Stokes coefficients. In parallel to this, the Painleve I and Painleve II equations are string-equations for two-dimensional quantum (super) gravity and minimal string theories, where Stokes data have natural ZZ-brane interpretations. This work computes for the first time the complete, analytical, resurgent Stokes data for the first two Painleve equations, alongside their quantum gravity or minimal string incarnations. The method developed herein, dubbed"closed-form asymptotics", makes sole use of resurgent large-order asymptotics of transseries solutions -- alongside a careful analysis of the role resonance plays. Given its generality, it may be applicable to other distinct (nonlinear, resonant) problems. Results for analytical Stokes coefficients have natural structures, which are described, and extensive high-precision numerical tests corroborate all analytical predictions. Connection-formulae are explicitly constructed, with rather simple and compact final results encoding the full Stokes data, and further allowing for exact monodromy checks -- hence for an analytical proof of our results.
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painlev方程和二维量子(超)引力的复兴Stokes数据
Painleve方程的重新生成的转换序列解可以从这些非线性微分方程中递归构建出来,但需要在复平面上全局定义Stokes数据。斯托克斯数据通过实现作用于转换序列的斯托克斯跃迁,明确地构建了描述与这些解相关的非线性斯托克斯现象的连接公式。然而,非线性复活的斯托克斯数据缺乏第一性原理的计算方法,因此很难通用地确定。在Painleve I和Painleve II的情况下,非线性斯托克斯数据会受到进一步的阻碍,因为这些方程是共振的,对跨序列扇区、桥接方程和相关斯托克斯系数之间的互连产生了不小的影响。与此平行,Painleve I和Painleve II方程是二维量子(超)引力和最小弦理论的弦方程,其中Stokes数据具有自然的ZZ膜解释。这项工作首次计算了前两个Painleve方程的完整、分析、复活的Stokes数据,以及它们的量子引力或最小弦的化身。本文开发的方法被称为“闭合形式渐近线”,它只利用了跨序列解的复活大阶渐近线,同时仔细分析了共振所起的作用。鉴于其普遍性,它可能适用于其他不同的(非线性、共振)问题。分析斯托克斯系数的结果具有所描述的自然结构,并且大量的高精度数值测试证实了所有的分析预测。连接公式是明确构建的,具有相当简单和紧凑的最终结果,对完整的斯托克斯数据进行编码,并进一步允许精确的单调性检查——因此可以对我们的结果进行分析证明。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Communications in Number Theory and Physics
Communications in Number Theory and Physics MATHEMATICS, APPLIED-MATHEMATICS
CiteScore
2.70
自引率
5.30%
发文量
8
审稿时长
>12 weeks
期刊介绍: Focused on the applications of number theory in the broadest sense to theoretical physics. Offers a forum for communication among researchers in number theory and theoretical physics by publishing primarily research, review, and expository articles regarding the relationship and dynamics between the two fields.
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