arXiv:1805.03764 Abstract | arXiv Analytics

arXiv:1805.03764 [math.FA]Abstract References Reviews Resources

Capacities, removable sets and $L^p$-uniqueness on Wiener spaces

Published 2018-05-10Version 1

We prove the equivalence of two different types of capacities in abstract Wiener spaces. This yields a criterion for the $L^p$-uniqueness of the Ornstein-Uhlenbeck operator and its integer powers defined on suitable algebras of functions vanishing in a neighborhood of a given closed set $\Sigma$ of zero Gaussian measure. To prove the equivalence we show the $W^{r,p}(B,\mu)$-boundedness of certain smooth nonlinear truncation operators acting on potentials of nonnegative functions. We also give connections to Gaussian Hausdorff measures. Roughly speaking, if $L^p$-uniqueness holds then the 'removed' set $\Sigma$ must have sufficiently large codimension, in the case of the Ornstein-Uhlenbeck operator for instance at least $2p$.

Categories: math.FA, math.PR

Subjects: 28A12, 31E05, 31C15, 35J25, 35J40, 47B25, 47B38, 47N30, 60H07, 60J45

Keywords: removable sets, uniqueness, capacities, ornstein-uhlenbeck operator, zero gaussian measure

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