English

Gaussian heat kernel bounds through elliptic Moser iteration

Analysis of PDEs 2015-03-09 v2 Differential Geometry Functional Analysis

Abstract

On a doubling metric measure space endowed with a "carr\'e du champ", we consider LpL^p estimates (Gp)(G_p) of the gradient of the heat semigroup and scale-invariant LpL^p Poincar\'e inequalities (Pp)(P_p). We show that the combination of (Gp)(G_p) and (Pp)(P_p) for p2p\ge 2 always implies two-sided Gaussian heat kernel bounds. The case p=2p=2 is a famous theorem of Saloff-Coste, of which we give a shorter proof, without parabolic Moser iteration. We also give a more direct proof of the main result in \cite{HS}. This relies in particular on a new notion of LpL^p H\"older regularity for a semigroup and on a characterization of (P2)(P_2) in terms of harmonic functions.

Keywords

Cite

@article{arxiv.1407.3906,
  title  = {Gaussian heat kernel bounds through elliptic Moser iteration},
  author = {Frédéric Bernicot and Thierry Coulhon and Dorothee Frey},
  journal= {arXiv preprint arXiv:1407.3906},
  year   = {2015}
}

Comments

v2: main result improved; slight reorganisation, title changed

R2 v1 2026-06-22T05:04:14.498Z