Title :
PML Design for the M24 High-Order FDTD Algorithm
Author :
Shreim, Amal M. ; Hadi, Mohammed F.
Author_Institution :
Kuwait Univ., Safat
fDate :
July 30 2007-Aug. 2 2007
Abstract :
Special FDTD update equations are developed that modify the high-order M24 FDTD algorithm to seamlessly integrate it within Berenger´s PML absorbing boundary layers. The formulation is based on the integral form analog of Maxwell´s equations splitting for PML purposes. It is demonstrated experimentally that the proposed formulation is capable of closely matching the excellent performance of the PML ABCs when applied with the standard Yee algorithm. This achievement, coupled with the recent success in modeling PEC boundaries within high-order extended-stencil FDTD schemes without the need for subgridding paves the way for wider adoption of high-order FDTD schemes for modeling electrically large structures within the resource limits of today´s desk-top PCs.
Keywords :
Maxwell equations; finite difference time-domain analysis; Berenger´s PML absorbing boundary layers; M24 FDTD algorithm; Maxwell´s equations; PEC boundaries; integral form analog; standard Yee algorithm; Algorithm design and analysis; Boundary conditions; Buffer layers; Difference equations; Finite difference methods; Integral equations; Maxwell equations; Personal communication networks; Time domain analysis; Wideband; Absorbing boundary conditions; FDTD methods; High-order schemes;
Conference_Titel :
Signals, Systems and Electronics, 2007. ISSSE '07. International Symposium on
Conference_Location :
Montreal, Que.
Print_ISBN :
1-4244-1448-2
Electronic_ISBN :
1-4244-1449-0
DOI :
10.1109/ISSSE.2007.4294407
