Development of split-step FDTD method with higher-order spatial accuracy
Electronics Letters2004Vol. 40(20), pp. 1252–1253
Citations Over TimeTop 14% of 2004 papers
Abstract
A split-step FDTD method with higher-order spatial accuracy is presented, which is proved to be unconditionally stable. From the dispersion analysis, it is justified that the method achieves improved accuracy compared with lower-order cases and its dispersion error is comparable with the higher-order ADI-FDTD method.
Related Papers
- → Accurate and Efficient Finite-Difference Time- Domain Formulation of Dusty Plasma(2021)27 cited
- → An Investigation into the Implementation of ADI-FDTD Subgrids in FDTD GPR Modeling(2007)7 cited
- → MR/FDTD: A multiple-region finite-difference--time-domain method(1997)39 cited
- → Fast and accurate hybrid subgrid and subcell finite-difference time-domain methods for the simulation of mask electromagnetic effects in sub-45nm lithography(2008)
- → The Dispersive WCS-FDTD Method for Simulations of Graphene(2019)