On the Dirichlet form of three-dimensional Brownian motion conditioned to hit the origin

Abstract

Our concern in this paper is the energy form induced by an eigenfunction of a self-adjoint extension of the restriction of the Laplace operator to Cc∞(R3 \0\). We will prove that this energy form is a regular Dirichlet form with core Cc∞(R3). The associated diffusion X behaves like a 3-dimensional Brownian motion with a mild radial drift when far from 0, subject to an ever-stronger push toward 0 near that point. In particular \0\ is not a polar set with respect to X. The diffusion X is rotation invariant, and admits a skew-product representation before hitting \0\: its radial part is a diffusion on (0,∞) and its angular part is a time-changed Brownian motion on the sphere S2. The radial part of X is a "reflected" extension of the radial part of X0 (the part process of X before hitting \0\). Moreover, X is the unique reflecting extension of X0, but X is not a semi-martingale.