It is a very common practice to use semi-implicit schemes in various computations,which treat selected linear terms implicitly and the nonlinear terms explicitly.For phase-field equations,the principal elliptic operat...It is a very common practice to use semi-implicit schemes in various computations,which treat selected linear terms implicitly and the nonlinear terms explicitly.For phase-field equations,the principal elliptic operator is treated implicitly to reduce the associated stability constraints while the nonlinear terms are still treated explicitly to avoid the expensive process of solving nonlinear equations at each time step.However,very few recent numerical analysis is relevant to semi-implicit schemes,while”stabilized”schemes have become very popular.In this work,we will consider semiimplicit schemes for the Allen-Cahn equation with general potential function.It will be demonstrated that the maximum principle is valid and the energy stability also holds for the numerical solutions.This paper extends the result of Tang&Yang(J.Comput.Math.,34(5)(2016),pp.471–481),which studies the semi-implicit scheme for the Allen-Cahn equation with polynomial potentials.展开更多
文摘It is a very common practice to use semi-implicit schemes in various computations,which treat selected linear terms implicitly and the nonlinear terms explicitly.For phase-field equations,the principal elliptic operator is treated implicitly to reduce the associated stability constraints while the nonlinear terms are still treated explicitly to avoid the expensive process of solving nonlinear equations at each time step.However,very few recent numerical analysis is relevant to semi-implicit schemes,while”stabilized”schemes have become very popular.In this work,we will consider semiimplicit schemes for the Allen-Cahn equation with general potential function.It will be demonstrated that the maximum principle is valid and the energy stability also holds for the numerical solutions.This paper extends the result of Tang&Yang(J.Comput.Math.,34(5)(2016),pp.471–481),which studies the semi-implicit scheme for the Allen-Cahn equation with polynomial potentials.