Title :
Conformal Perfectly Matched Layer for the Mixed Finite Element Time-Domain Method
Author :
Donderici, Burkay ; Teixeira, Fernando L.
Author_Institution :
Ohio State Univ., Columbus
fDate :
4/1/2008 12:00:00 AM
Abstract :
We introduce a conformal perfectly matched layer (PML) for the finite-element time-domain (FETD) solution of transient Maxwell equations in open domains. The conformal PML is implemented in a mixed FETD setting based on a direct discretization of the first-order coupled Maxwell curl equations (as opposed to the second-order vector wave equation) that employs edge elements (Whitney 1-form) to expand the electric field and face elements (Whitney 2-form) to expand the magnetic field. We show that the conformal PML can be easily incorporated into the mixed FETD algorithm by utilizing PML constitutive tensors whose discretization is naturally decoupled from that of Maxwell curl equations (spatial derivatives). Compared to the conventional (rectangular) PML, a conformal PML allows for a considerable reduction on the amount of buffer space in the computational domain around the scatterer(s).
Keywords :
Maxwell equations; computational electromagnetics; electromagnetic wave scattering; finite element analysis; time-domain analysis; PML constitutive tensors; conformal PML; conformal perfectly matched layer; electric field; finite element time-domain method; first-order coupled Maxwell curl equations; magnetic field; mixed FETD method; open domains; scattering; transient Maxwell equations; Couplings; Finite difference methods; Finite element methods; Frequency; Linear systems; Magnetic fields; Maxwell equations; Partial differential equations; Perfectly matched layers; Time domain analysis; Finite-element time-domain (FETD) method; perfectly matched layers (PMLs);
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2008.919215
