Title :
Cylindrical convex PML: Properties and limitations
Author :
Sainath, Kamalesh ; Teixeira, Fernando L.
Author_Institution :
ElectroScience Lab., Ohio State Univ., Columbus, OH, USA
Abstract :
Using the “complex-space” interpretation of the Perfectly Matched Layer (PML) we analytically demonstrate the existence, but severe limitation, of perfectly impedance-matched absorbers conforming to convex cylindrical surfaces. We also propose a design pathway for feasible pseudo PML (PPML) convex absorbers that effectively truncate, with minimal backscattering, internal sub-regions of computational domains. Indeed, in many computational problems there can exist such sub-regions with uninteresting field distribution, leading to waste of computing resources if meshing them. This inefficiency can be obviated by replacing such sub-regions with a hard boundary condition coated by thin PPML absorbers. We define PPMLs through the complex-space PML formalism followed by an ad hoc sign reversal of the (otherwise active) PML material parameters, yielding an entire class of PPML absorbers with excellent absorption capability.
Keywords :
absorbing media; backscatter; electromagnetic wave absorption; impedance matching; PML material parameter; PPML absorber; ad hoc sign reversal; boundary condition; complex-space PML formalism; computational domain; convex cylindrical surface; field distribution; minimal backscattering; perfectly impedance matched absorber; perfectly matched layer; pseudo PML convex absorber; Absorption; Backscatter; Coatings; Electromagnetic scattering; Media; Optical ring resonators; Perfectly matched layers; Perfectly Matched Layer;
Conference_Titel :
Applied Computational Electromagnetics (ACES), 2015 31st International Review of Progress in
Conference_Location :
Williamsburg, VA
