Hitting spheres on hyperbolic spaces

Abstract

For a hyperbolic Brownian motion on the Poincar\'e half-plane H2, starting from a point of hyperbolic coordinates z=(η, α) inside a hyperbolic disc U of radius η, we obtain the probability of hitting the boundary ∂ U at the point ( η, α). For η ∞ we derive the asymptotic Cauchy hitting distribution on ∂ H2 and for small values of η and η we obtain the classical Euclidean Poisson kernel. The exit probabilities Pz\Tη1<Tη2\ from a hyperbolic annulus in H2 of radii η1 and η2 are derived and the transient behaviour of hyperbolic Brownian motion is considered. Similar probabilities are calculated also for a Brownian motion on the surface of the three dimensional sphere. For the hyperbolic half-space Hn we obtain the Poisson kernel of a ball in terms of a series involving Gegenbauer polynomials and hypergeometric functions. For small domains in Hn we obtain the n-dimensional Euclidean Poisson kernel. The exit probabilities from an annulus are derived also in the n-dimensional case.