Implementing the Perfectly Matched Layer Absorbing Boundary Condition With Mimetic Differencing Schemes - Abstract

“…It can have arbitrary thickness and is s p e c i f i e d t o b e m a d e o f a n a r t i f i c i a l a b s o rbing material. The material has anisotropic www.intechopen.com permittivity and permeability that matches that of the physical medium outside the PML in such a way that there are no reflections regardless of the angle of incidence, polarisation and frequency of the incoming electromagnetic radiation Buksas 2001). The PML formulation can be deduced from Maxwell's equations by introducing a complex-valued coordinate transformation under the additional requirement that the wave impedance should remain unaffected (Buksas 2001).…”

A Novel Compact Photonic Crystal Fibre Surface Plasmon Resonance Biosensor for an Aqueous Environment

“…It can have arbitrary thickness and is s p e c i f i e d t o b e m a d e o f a n a r t i f i c i a l a b s o rbing material. The material has anisotropic www.intechopen.com permittivity and permeability that matches that of the physical medium outside the PML in such a way that there are no reflections regardless of the angle of incidence, polarisation and frequency of the incoming electromagnetic radiation Buksas 2001). The PML formulation can be deduced from Maxwell's equations by introducing a complex-valued coordinate transformation under the additional requirement that the wave impedance should remain unaffected (Buksas 2001).…”

A Novel Compact Photonic Crystal Fibre Surface Plasmon Resonance Biosensor for an Aqueous Environment

Time domain electromagnetic scattering using finite elements and perfectly matched layers

Squeezing of Open Boundaries by Maxwell-Consistent Real Coordinate Transformation