Dong Li, Chaoyu Quan, Tao Tang, Wen Yang
Published 2021-06-12Version 1
We consider numerical solutions for the Allen-Cahn equation with standard double well potential and periodic boundary conditions. Surprisingly it is found that using standard numerical discretizations with high precision computational solutions may converge to completely incorrect steady states. This happens for very smooth initial data and state-of-the-art algorithms. We analyze this phenomenon and showcase the resolution of this problem by a new symmetry-preserving filter technique. We develop a new theoretical framework and rigorously prove the convergence to steady states for the filtered solutions.
Near-linear dynamics in KdV with periodic boundary conditions
Trapping regions and an ODE-type proof of the existence and uniqueness theorem for Navier-Stokes equations with periodic boundary conditions on the plane
Global regularity of the Navier-Stokes equation on thin three dimensional domains with periodic boundary conditions
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