Abstract

We consider the Kardar-Parisi-Zhang (KPZ) equation for the stochastic growth of an interface of height h(x,t)h(x,t) on the positive half line with boundary condition \partial_x h(x,t)|_{x=0}=A∂xh(x,t)|x=0=A. It is equivalent to a continuum directed polymer (DP) in a random potential in half-space with a wall at x=0x=0 either repulsive A>0A>0, or attractive A<0A<0. We provide an exact solution, using replica Bethe ansatz methods, to two problems which were recently proved to be equivalent [Parekh, arXiv:1901.09449]: the droplet initial condition for arbitrary A \geqslant -1/2A≥−1/2, and the Brownian initial condition with a drift for A=+\inftyA=+∞ (infinite hard wall). We study the height at x=0x=0 and obtain (i) at all time the Laplace transform of the distribution of its exponential (ii) at infinite time, its exact probability distribution function (PDF). These are expressed in two equivalent forms, either as a Fredholm Pfaffian with a matrix valued kernel, or as a Fredholm determinant with a scalar kernel. For droplet initial conditions and A> - \frac{1}{2}A>−12 the large time PDF is the GSE Tracy-Widom distribution. For A= \frac{1}{2}A=12, the critical point at which the DP binds to the wall, we obtain the GOE Tracy-Widom distribution. In the critical region, A+\frac{1}{2} = \epsilon t^{-1/3} \to 0A+12=ϵt−1/3→0 with fixed \epsilon = \mathcal{O}(1)ϵ=𝒪(1), we obtain a transition kernel continuously depending on \epsilonϵ. Our work extends the results obtained previously for A=+\inftyA=+∞, A=0A=0 and A=- \frac{1}{2}A=−12.

Highlights

  • The aim of this paper is to provide an exact solution for the KPZ equation on a half-line for generic values of A using the replica Bethe ansatz

  • In this paper we have extended the replica Bethe ansatz solution to the KPZ equation in a half-space for droplet initial condition near the wall, previously obtained for wall parameter A = +∞ and A = 0, to generic value of A

  • A recent theorem which maps this problem to the case of A = +∞ (Dirichlet) but with a Brownian initial condition was inspiring in the solution

Read more

Summary

Introduction

The continuum Kardar-Parisi-Zhang (KPZ) equation in one dimension [1,2,3,4,5,6,7] describes the stochastic growth of an interface parameterized by a height field h(x, t) at point x ∈ and time t. We study the height at x = 0 and obtain (i) at all time the generating function (i.e. the Laplace transform of the PDF of Z = eh) (ii) at infinite time, its exact probability distribution function (PDF) These are expressed in two equivalent forms, either as a Fredholm Pfaffian with a matrix valued kernel, or as a Fredholm determinant with a is the GSE Tracy-Widom distribution. Let us close by mentioning that these exact formulae for the KPZ equation at all times are very useful to obtain exact results for the large deviations of the PDF of the KPZ height field both at large time [46,47,48,49] and short time [50,51,52,53] and in particular in the half-space [27] with excellent agreeement with numerics [54,55] These exact solutions have been used in the mathematics community to prove exact bounds on the tails of the PDF of the KPZ height, see Refs. We will study here only typical fluctuations and not large deviations, the new formulae obtained in this work should allow for such results for generic A in the future

Presentation of the main results
Finite time
Large time limit
Bethe ansatz formula for the moments
C 2iπz dw
From a matrix valued kernel to a scalar kernel
Conclusion
C 2iπ w

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.