English

Construction and analysis of sticky reflected diffusions

Probability 2015-01-14 v2

Abstract

We give a Dirichlet form approach for the construction of distorted Brownian motion in a bounded domain Ω\Omega of Rd\mathbb{R}^d, d1d \geq 1, with boundary Γ\Gamma, where the behavior at the boundary is sticky. The construction covers the case of a static boundary behavior as well as the case of a diffusion on the hypersurface Γ\Gamma (for d2)d \geq 2). More precisely, we consider the state space Ω=Ω.Γ\overline{\Omega}=\Omega \stackrel{.}{\cup} \Gamma, the process is a diffusion process inside Ω\Omega, the occupation time of the process on the boundary Γ\Gamma is positive and the process may diffuse on Γ\Gamma as long as it sticks on the boundary. The problem is formulated in an L2L^2-setting and the construction is formulated under weak assumptions on the coefficients and Γ\Gamma. In order to analyze the process we assume a C2C^2-boundary and some weak differentiability conditions. In this case, we deduce that the process is also a solution to a given SDE for quasi every starting point in Ω\overline{\Omega} with respect to the underyling Dirichlet form. Under the addtional condition that {ϱ=0}\{ \varrho =0 \} is of capacity zero, we prove ergodicity of the constructed process and consequently, we verify that the boundary behavior is indeed sticky. Moreover, we show (Lp\mathcal{L}^p-)strong Feller properties which allow to characterize the constructed process even for every starting point in Ω\{ϱ=0}\overline{\Omega} \backslash \{ \varrho=0\}.

Keywords

Cite

@article{arxiv.1412.3975,
  title  = {Construction and analysis of sticky reflected diffusions},
  author = {Martin Grothaus and Robert Voßhall},
  journal= {arXiv preprint arXiv:1412.3975},
  year   = {2015}
}
R2 v1 2026-06-22T07:29:05.483Z