IBS Publications Repository: Effective time step analysis for the Allen–Cahn equation with a high-order polynomial free energy

Effective time step analysis for the Allen–Cahn equation with a high-order polynomial free energy

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Title: Effective time step analysis for the Allen–Cahn equation with a high-order polynomial free energy

Author(s): Seunggyu Lee; Yoon, Sungha; Lee, Chaeyoung; Kim, Sangkwon; Kim, Hyundong; Yang, Junxiang; Kwak, Soobin; Hwang, Youngjin; Kim, Junseok

Journal: International Journal for Numerical Methods in Engineering, v.123, no.19, pp.4726 - 4743

Abstract: © 2022 John Wiley & Sons Ltd.An effective time step analysis to the linear convex splitting scheme for the Allen–Cahn equation with a high-order polynomial free energy is presented in this article. Although the convex splitting scheme is unconditionally stable, using a large time step causes a time step rescaling effect, leading to delayed dynamics of the governing equation. We verify this problem by comparing it with a reformulated semi-implicit scheme using the effective time step. Theoretical results show that the discrete energy stability and maximum-principle hold, and the numerical results demonstrate that the time step rescaling issue can be resolved using the effective time step. We confirm that slow dynamics due to high-order potential is alleviated by the time step modification through the results of motion by mean curvature.