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Strong Convergence of an Explicit Full-Discrete Scheme for Stochastic Burgers-Huxley Equation
Yibo Wang, Wanrong Cao and Yanzhao Cao

J. Comp. Math. DOI: 10.4208/jcm.2408-m2024-0110

Publication Date : 2024-10-15

  • Abstract

The strong convergence of an explicit full-discrete scheme is investigated for the stochastic Burgers-Huxley equation driven by additive space-time white noise, which possesses both Burgers-type and cubic nonlinearities. To discretize the continuous problem in space, we utilize a spectral Galerkin method. Subsequently, we introduce a nonlinear-tamed exponential integrator scheme, resulting in a fully discrete scheme. Within the framework of semigroup theory, this study provides precise estimations of the Sobolev regularity, $L^∞$ regularity in space, and Hölder continuity in time for the mild solution, as well as for its semi-discrete and full-discrete approximations. Building upon these results, we establish moment boundedness for the numerical solution and obtain strong convergence rates in both spatial and temporal dimensions. A numerical example is presented to validate the theoretical findings.

  • Copyright

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