A Paralleling-in-Order Unconditionally Stable AH FDTD in Cylindrical Coordinates System


The unconditionally stable associated Hermite (AH) finite-difference time domain (FDTD) with Mur’s absorbing boundary condition is extended into the cylindrical coordinates system. With AH expansion and paralleling-in-order scheme, the time-domain Maxwell’s equations in cylindrical coordinates are transformed to AH domain five-point equations. And, Ampere’s… (More)

4 Figures and Tables


  • Presentations referencing similar topics