Nonlinear stochastic heat equations with cubic nonlinearities and additive Q-regular noise in R^1

Nonlinear stochastic heat equations with cubic nonlinearities and additive Q-regular noise in R^1

Semilinear stochastic heat equations perturbed by cubic-type nonlinearities and additive space-time noise with homogeneous boundary conditions are discussed in R^1. The space-time noise is supposed to be Gaussian in time and possesses a Fourier expansion in space along the eigenfunctions of und...

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Bibliographic Details
Main Author: Henri Schurz
Format: Article
Language:English
Published: Texas State University 2010-09-01
Series:Electronic Journal of Differential Equations
Subjects:
Semilinear stochastic heat equations
cubic nonlinearities
additive noise
homogeneous boundary conditions
approximate strong solution
Fourier expansion
SPDE
existence
uniqueness
energy
Lyapunov functionals
numerical methods
consistency
stability
Online Access:http://ejde.math.txstate.edu/conf-proc/19/s1/abstr.html
Description
Summary:Semilinear stochastic heat equations perturbed by cubic-type nonlinearities and additive space-time noise with homogeneous boundary conditions are discussed in R^1. The space-time noise is supposed to be Gaussian in time and possesses a Fourier expansion in space along the eigenfunctions of underlying Lapace operators. We follow the concept of approximate strong (classical) Fourier solutions. The existence of unique continuous L^2-bounded solutions is proved. Furthermore, we present a procedure for its numerical approximation based on nonstandard methods (linear-implicit) and justify their stability and consistency. The behavior of related total energy functional turns out to be crucial in the presented analysis.
ISSN:1072-6691

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