Litcius/Paper detail

Exact lower-tail large deviations of the KPZ equation

Li‐Cheng Tsai

2022Duke Mathematical Journal39 citationsDOI

Abstract

Consider the Hopf–Cole solution h(t,x) of the Kandar–Parisi–Zhang (KPZ) equation with the narrow wedge initial condition. Regarding t→∞ as a scaling parameter, we provide the first rigorous proof of the large deviation principle (LDP) for the lower tail of h(2t,0)+t 12, with speed t2 and an explicit rate function Φ −(z). This result confirms existing physics predictions made by Corwin (2011); Sasorov, Meerson, and Prolhac (2017); and Krajenbrink, Le Doussal, and Prolhac (2018). Our analysis utilizes a formula from Borodin and Gorin (2016) to convert the LDP for the KPZ equation to calculating an exponential moment of the Airy point process (PP). To estimate this exponential moment, we invoke the stochastic Airy operator (SAO) and use the Riccati transform, comparison techniques, and certain variational characterizations of the relevant functional.

Topics & Concepts

MathematicsAiry functionScalingExponential functionRiccati equationWedge (geometry)Operator (biology)Rate functionMathematical analysisLarge deviations theoryMoment (physics)Mathematical physicsMoment-generating functionApplied mathematicsProbability density functionDifferential equationClassical mechanicsPhysicsGeometryChemistryGeneTranscription factorBiochemistryRepressorStatisticsRandom Matrices and ApplicationsStochastic processes and statistical mechanicsTheoretical and Computational Physics