Communications in Mathematical Sciences

Volume 22 (2024)

Number 3

Improved uniform error bounds of an exponential wave integrator method for the Klein–Gordon–Schrödinger equation with the small coupling constant

Pages: 583 – 612

DOI: https://dx.doi.org/10.4310/CMS.2024.v22.n3.a1

Author

Jiyong Li (School of Mathematics Science, Hebei Normal University; and Hebei Key Laboratory of Computational Mathematics & Applications, Hebei International Joint Research Center for Mathematics & Interdisciplinary Science, Shijiazhuang, Hebei, People’s China)

Abstract

Recently, the long-time numerical simulation and error analysis of PDEs with weak nonlinearity (or small potentials) become an interesting topic. However, the existing results of long-time error analysis mostly focus on the single equations. In this paper, for the Klein–Gordon–Schrödinger equation (KGSE) with a small coupling constant $\varepsilon \in (0,1]$, we propose an exponential wave integrator Fourier pseudo-spectral (EWIFP) method by reformulating the KGSE into a coupled nonlinear Schrödinger system (CNLSS). Through careful and rigorous analysis, we establish improved error bounds for the numerical solution at $O(h^m + \varepsilon \tau^2)$ in the long-time domain up to $O(1/\varepsilon)$ where $m$ is determined by the regularity conditions, h is the mesh size and τ is the time step, respectively. Compared with the existing results, our analysis shows the long-time errors of numerical solution for the KGSE. In error analysis, in addition to the classical tools such as energy method and cut-off technique, we also adopt the regularity compensation oscillation (RCO) technique which has been developed recently to analyze the accumulation of errors carefully. The numerical experiments support our error estimates and demonstrate the long-term stability of discrete mass and energy. To the best of our knowledge, there has not been any relevant long-time error analysis for the KGSE and any improved uniform error bounds for an exponential wave integrator. Our work is novel and provides a reference for analyzing the improved error bounds of the numerical methods for other coupled equations.

Keywords

long-time dynamics, improved error bounds, small coupling constant, Klein–Gordon–Schrödinger equation, exponential wave integrator

2010 Mathematics Subject Classification

35L70, 65M12, 65M15, 65M70, 81-08

Full Text (PDF format)

The author’s research is supported in part by the Natural Science Foundation of Hebei Province (No. A2021205036).

Received 11 April 2023

Received revised 9 August 2023

Accepted 9 August 2023

Published 4 March 2024