Fractional SPDEs driven by spatially correlated noise: existence of the solution and smoothness of its density

Lahcen Boulanba; M. Hamed Eddahbi; Mohamed Mellouk; Mhamed EDDAHBI

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Journal article

Fractional SPDEs driven by spatially correlated noise: existence of the solution and smoothness of its density

Lahcen Boulanba, M. Hamed Eddahbi, Mohamed Mellouk and Mhamed EDDAHBI

Osaka Journal of Mathematics, Vol.47(1), pp.41-65

01/03/2010

Abstract

Analysis of PDEs

Mathematics

Probability

In this paper we study a class of stochastic partial differential equations in the whole space $\mathbb{R}^{d}$, with arbitrary dimension $d\geq 1$, driven by a Gaussian noise white in time and correlated in space. The differential operator is a fractional derivative operator. We show the existence, uniqueness and H\"{o}lder's regularity of the solution. Then by means of Malliavin calculus, we prove that the law of the solution has a smooth density with respect to the Lebesgue measure.

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Title: Fractional SPDEs driven by spatially correlated noise: existence of the solution and smoothness of its density
Creators - without role: Lahcen Boulanba
M. Hamed Eddahbi
Mohamed Mellouk
Mhamed EDDAHBI - King Saud University
Publication Details: Osaka Journal of Mathematics, Vol.47(1), pp.41-65
Publisher: Osaka University and Osaka City University, Departments of Mathematics
Identifiers: 9951762308331
Academic Unit: King Saud University
Language: English
Resource Type: Journal article