A conservative local discontinuous Galerkin method for the solution of nonlinear Schrdinger equation in two dimensions 被引量：7

A conservative local discontinuous Galerkin method for the solution of nonlinear Schrdinger equation in two dimensions

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摘要 In this study, we present a conservative local discontinuous Galerkin(LDG) method for numerically solving the two-dimensional nonlinear Schrdinger(NLS) equation. The NLS equation is rewritten as a firstorder system and then we construct the LDG formulation with appropriate numerical flux. The mass and energy conserving laws for the semi-discrete formulation can be proved based on different choices of numerical fluxes such as the central, alternative and upwind-based flux. We will propose two kinds of time discretization methods for the semi-discrete formulation. One is based on Crank-Nicolson method and can be proved to preserve the discrete mass and energy conservation. The other one is Krylov implicit integration factor(IIF) method which demands much less computational effort. Various numerical experiments are presented to demonstrate the conservation law of mass and energy, the optimal rates of convergence, and the blow-up phenomenon. In this study, we present a conservative local discontinuous Galerkin（LDG） method for numerically solving the two-dimensional nonlinear Schrdinger（NLS） equation. The NLS equation is rewritten as a firstorder system and then we construct the LDG formulation with appropriate numerical flux. The mass and energy conserving laws for the semi-discrete formulation can be proved based on different choices of numerical fluxes such as the central, alternative and upwind-based flux. We will propose two kinds of time discretization methods for the semi-discrete formulation. One is based on Crank-Nicolson method and can be proved to preserve the discrete mass and energy conservation. The other one is Krylov implicit integration factor（IIF） method which demands much less computational effort. Various numerical experiments are presented to demonstrate the conservation law of mass and energy, the optimal rates of convergence, and the blow-up phenomenon.

作者 ZHANG RongPei YU XiJun LI MingJun LI XiangGui

机构地区 School of Mathematics and Systematic Sciences Laboratory of Computational Physics School of Mathematics and Computational Science School of Applied Science

出处《Science China Mathematics》 SCIE CSCD 2017年第12期2515-2530,共16页 中国科学：数学（英文版）

基金 supported by the Foundation of Liaoning Educational Committee (Grant No. L201604) China Scholarship Council, National Natural Science Foundation of China (Grant Nos. 11571002, 11171281 and 11671044) the Science Foundation of China Academy of Engineering Physics (Grant No. 2015B0101021) the Defense Industrial Technology Development Program (Grant No. B1520133015)

关键词 discontinuous Galerkin method nonlinear Schrdinger equation CONSERVATION Krylov implicit integration factor method discontinuous Galerkin method nonlinear Schrdinger equation conservation Krylov implicit integration factor method

分类号 O241.82 [理学—计算数学]

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