Pablo Lessa
Published 2014-08-15Version 1
We introduce the notion of a stationary random manifold and develop the basic entropy theory for it. Examples include manifolds admitting a compact quotient under isometries and generic leaves of a compact foliation. We prove that the entropy of an ergodic stationary random manifold is zero if and only if the manifold satisfies the Liouville property almost surely, and is positive if and only if it admits an infinite dimensional space of bounded harmonic functions almost surely. Upper and lower bounds for the entropy are provided in terms of the linear drift of Brownian motion and average volume growth of the manifold. Other almost sure properties of these random manifolds are also studied.
On Sullivan's construction of eigenfunctions via exit times of Brownian motion
Cartan connections for stochastic developments on sub-Riemannian manifolds
Brownian motion and the parabolicity of minimal graphs
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