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arxiv: 2103.16065 · v1 · pith:PX4K5W5T · submitted 2021-03-30 · math.NA · cs.NA

General local energy-preserving integrators for solving multi-symplectic Hamiltonian PDEs

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classification math.NA cs.NA
keywords localschemesenergy-preservingmethodsapproachdiscretizationequationsgeneral
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In this paper we propose and investigate a general approach to constructing local energy-preserving algorithms which can be of arbitrarily high order in time for solving Hamiltonian PDEs. This approach is based on the temporal discretization using continuous Runge-Kutta-type methods, and the spatial discretization using pseudospectral methods or Gauss--Legendre collocation methods. The local energy conservation law of our new schemes is analyzed in detail. The effectiveness of the novel local energy-preserving integrators is demonstrated by coupled nonlinear Schr\"odinger equations and 2D nonlinear Schr\"odinger equations with external fields. Our new schemes are compared with some classical multi-symplectic and symplectic schemes in numerical experiments. The numerical results show the remarkable \emph{long-term} behaviour of our new schemes.

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