English

Recurrence criteria for generalized Dirichlet forms

Probability 2017-10-10 v4

Abstract

We develop sufficient analytic conditions for recurrence and transience of non-sectorial perturbations of possibly non-symmetric Dirichlet forms on a general state space. These form an important subclass of generalized Dirichlet forms which were introduced in \cite{St1}. In case there exists an associated process, we show how the analytic conditions imply recurrence and transience in the classical probabilistic sense. As an application, we consider a generalized Dirichlet form given on a closed or open subset of Rd\mathbb{R}^d which is given as a divergence free first order perturbation of a non-symmetric energy form. Then using volume growth conditions of the sectorial and non-sectorial first order part, we derive an explicit criterion for recurrence. Moreover, we present concrete examples with applications to Muckenhoupt weights and counterexamples. The counterexamples show that the non-sectorial case differs qualitatively from the symmetric or non-symmetric sectorial case. Namely, we make the observation that one of the main criteria for recurrence in these cases fails to be true for generalized Dirichlet forms.

Keywords

Cite

@article{arxiv.1508.02282,
  title  = {Recurrence criteria for generalized Dirichlet forms},
  author = {Minjung Gim and Gerald Trutnau},
  journal= {arXiv preprint arXiv:1508.02282},
  year   = {2017}
}

Comments

Revised version: in particular the whole Section 2.2 was revised as in all previous arXiv-versions it was by mistake the preliminary Section 2.2 before its final revision

R2 v1 2026-06-22T10:30:07.200Z