The splitting finite-difference time-domain methods for Maxwell's equations in two dimensions

In this paper, we consider splitting methods for Maxwell's equations in two dimensions. A new kind of splitting finite-difference time-domain methods on a staggered grid is developed. The corresponding schemes consist of only two stages for each time step, which are very simple in computation. The rigorous analysis of the schemes is given. By the energy method, it is proved that the scheme is unconditionally stable and convergent for the problems with perfectly conducting boundary conditions. Numerical dispersion analysis and numerical experiments are presented to show the efficient performance of the proposed methods. Furthermore, the methods are also applied to solve a scattering problem successfully.