A sixth-order compact time-splitting Fourier pseudospectral method

Abstract

In this paper, we propose a novel sixth-order compact time-splitting scheme, denoted as S6c, for solving the Dirac equation in the absence of external magnetic potentials. This method is easy to implement, and it provides a substantial reduction in computational complexity compared to the existing sixth-order splitting schemes. By incorporating a time-ordering technique, we also extend S6c to address problems with time-dependent potentials. Comprehensive comparisons with various time-splitting methods show that S6c exhibits significant advantages in terms of both precision and efficiency. Moreover, numerical results indicate that S6c maintains the super-resolution property for the Dirac equation in the nonrelativistic regime in the absence of external magnetic potentials.