In this contribution we show how it is possible to construct a new multilayer dielectric ground plane us- ing bianisotropic media that is highly reflective over a broad range of wavelengths at all angles. This omnidirectional di- electric reflector-unlike metal-is nearly totally lossless and can be engineered to have extremely high reflectivity. The plane wave solution is then used to study in a rigorous way the wave equations satisfied by the electromagnetic field in a lay- ered structure filled with such a material. Numerical results are also presented as a function of the material parameters in order to demonstrate the features of this approach.
Toscano, A., L., V. (2006). Dielectric Ground Plane Design over Bianisotropic Media. JOURNAL OF COMPUTATIONAL ELECTRONICS, 2006, 229-234 [10.1007/s10825-006-8849-7].
Dielectric Ground Plane Design over Bianisotropic Media
TOSCANO, ALESSANDRO;
2006-01-01
Abstract
In this contribution we show how it is possible to construct a new multilayer dielectric ground plane us- ing bianisotropic media that is highly reflective over a broad range of wavelengths at all angles. This omnidirectional di- electric reflector-unlike metal-is nearly totally lossless and can be engineered to have extremely high reflectivity. The plane wave solution is then used to study in a rigorous way the wave equations satisfied by the electromagnetic field in a lay- ered structure filled with such a material. Numerical results are also presented as a function of the material parameters in order to demonstrate the features of this approach.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.