Title :
Radiation and scattering in homogeneous general biisotropic regions
Author :
Monzon, J. Cesar
Author_Institution :
Damaskos Inc., Concordville, PA, USA
fDate :
2/1/1990 12:00:00 AM
Abstract :
Solutions to Maxwell´s equations for a four-parameter biisotropic medium are analyzed. A field decomposition provides remarkable simplification in the derivation of solutions and provides a qualitative picture of biisotropy. Green´s dyadics and the Cherenkov radiation description are easily derived. A broad class of biisotropic materials that is not optically active is found (for instance, Cherenkov radiation and dipole radiation are linearly polarized). Green´s dyadics for a more general constitutive relation, which includes diffusion terms, are solved in terms of the biisotropic solutions. Huygens´ principle is obtained and applied in surface integral equation form to the problem of a thin linear antenna in order to demonstrate the feasibility of upgrading existing numerical codes to handle the case of biisotropic materials
Keywords :
Cherenkov radiation; Green´s function methods; electromagnetic field theory; electromagnetic wave polarisation; electromagnetic wave scattering; integral equations; Cherenkov radiation description; EM wave polarization; EM wave scattering; Green´s dyadics; Huygens´ principle; Maxwell´s equations; dipole antennas; field decomposition; four-parameter biisotropic medium; qualitative picture; surface integral equation; thin linear antenna; Dielectric materials; Electromagnetic modeling; Frequency; Magnetic fields; Magnetic materials; Optical materials; Optical polarization; Optical propagation; Optical scattering; Reflection;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
