Title :
Perfectly matched absorbing boundary conditions based on anisotropic lossy mapping of space
Author :
Rappaport, Carey M.
Author_Institution :
Center for Electromagn. Res., Northeastern Univ., Boston, MA, USA
fDate :
3/1/1995 12:00:00 AM
Abstract :
An absorbing boundary condition (ABC), based on the PML BBC of Berenger (1994), used in the frequency domain to terminate the computational grid in electromagnetic scattering simulations is presented. Making use of an impedance-matched lossy layer, with directionally-dependent electric and magnetic conductivity, this ABC is independent of frequency and almost independent of incident angle. Thus it can be placed very close to a scatterer, minimizing the usual buffer of required, uninteresting computational space, and so reduce computer storage and CPU time. With this novel formulation, the ABC can be specified in three dimensions in almost the same manner as the standard FDFD equations, with only a small percentage of increased software overhead
Keywords :
Maxwell equations; boundary-value problems; electromagnetic wave scattering; partial differential equations; CPU time; absorbing boundary condition; anisotropic lossy mapping of space; computational grid; computational space; computer storage; directionally-dependent electric conductivity; electromagnetic scattering simulation; frequency domain; impedance-matched lossy layer; magnetic conductivity; perfectly matched absorbing boundary conditions; Boundary conditions; Buffer storage; Computational modeling; Conductivity; Electromagnetic scattering; Frequency domain analysis; Grid computing; Impedance; Magnetic domains; Software standards;
Journal_Title :
Microwave and Guided Wave Letters, IEEE
