Fluctuation results for Hastings-Levitov planar growth

Abstract

We study the fluctuations of the outer domain of Hastings-Levitov clusters in the small particle limit. These are shown to be given by a continuous Gaussian process F taking values in the space of holomorphic functions on \ |z|>1 \, of which we provide an explicit construction. The boundary values W of F are shown to perform an Ornstein-Uhlenbeck process on the space of distributions on the unit circle T, which can be described as the solution to the stochastic fractional heat equation \[ ∂∂ t W (t, ) = - (- )1/2 W (t, ) + 2\, (t, ) \,, \] where denotes the Laplace operator acting on the spatial component, and (t, ) is a space-time white noise. As a consequence we find that, when the cluster is left to grow indefinitely, the boundary process W converges to a log-correlated Fractional Gaussian Field, which can be realised as (- )-1/4W, for W complex White Noise on T.