Gaussian bounds, strong ellipticity and uniqueness criteria
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Publication:2922872
DOI10.1112/blms/bdu063zbMath1311.47031arXiv1401.0360OpenAlexW2094280606MaRDI QIDQ2922872
Publication date: 15 October 2014
Published in: Bulletin of the London Mathematical Society (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1401.0360
Markov semigroupdiffusion processselfadjoint operatorGaussian kernelparabolic operatorsecond order elliptic operator
Markov semigroups and applications to diffusion processes (47D07) Linear symmetric and selfadjoint operators (unbounded) (47B25)
Cites Work
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- Uniqueness properties of degenerate elliptic operators
- Analysis of degenerate elliptic operators of Grušin type
- A new proof of Moser's parabolic Harnack inequality using the old ideas of Nash
- Introduction to the theory of (non-symmetric) Dirichlet forms
- A canonical decomposition for quadratic forms with applications to monotone convergence theorems
- Heat kernel bounds, conservation of probability and the Feller property
- Dirichlet forms and symmetric Markov processes
- An introduction to \(\Gamma\)-convergence
- Uniqueness of diffusion operators and capacity estimates
- Uniqueness and non-uniqueness of semigroups generated by singular diffusion operators
- L1-uniqueness of degenerate elliptic operators
- Continuity of Solutions of Parabolic and Elliptic Equations
- The conservation property of the heat equation on riemannian manifolds
- Ergodic Properties of Recurrent Diffusion Processes and Stabilization of the Solution to the Cauchy Problem for Parabolic Equations
- Dirichlet Forms and Degenerate Elliptic Operators
- L 1 Properties of Second order Elliptic Operators
- Lower semicontinuhy of positive quadratic forms
- Behavior of diffusion semi-groups at infinity
- Analytic and geometric background of recurrence and non-explosion of the Brownian motion on Riemannian manifolds
- Second-order operators with degenerate coefficients
- Bounds for the fundamental solution of a parabolic equation
- Positivity and strong ellipticity
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