Luca M. Giordano, Maria Jolis, Lluís Quer-Sardanyons
Published 2019-11-27Version 1
In this article, we consider the one-dimensional stochastic wave and heat equations driven by a linear multiplicative Gaussian noise which is white in time and behaves in space like a fractional Brownian motion with Hurst index $H\in (\frac 14,1)$. We prove that the solution of each of the above equations is continuous in terms of the index $H$, with respect to the convergence in law in the space of continuous functions. The proof is based on a tightness criterion on the plane and Malliavin calculus techniques in order to identify the limit law.
SPDEs with fractional noise in space: continuity in law with respect to the Hurst index
Continuity in law for solutions of SPDEs with space-time homogeneous Gaussian noise
On (signed) Takagi-Landsberg functions: $p^{\text{th}}$ variation, maximum, and modulus of continuity
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