Research Information System
General review of laws and principles of acoustic and electromagnetic
fields. Boundary, edge and radiation conditions. General mathematical
structure of boundary value problems and well-posedness concept.
Systematical analysis of ideal sources and their frequency/time domain
radiation fields in simple media. Derivation of electromagnetic wave
equations in complex media. Scattering problems from canonical
geometries that does not include edge singularies: Analytical
investigation of planar, cylndirical and spherical structures that has
complex (layered, inhomogenous, anisotropic) constitutive properties.
Development of Electric/Magnetic field integral equations in simple
media and general introduction to their computational investigations.
Scattering from a PEC half-plane with Wiener-Hopf technique: Fourier
transform in complex plane. General formulation of Wiener-Hopf
Technique. Complex square-root function. Asymptotic investigation of
spectral integrals. Analytical-Asymptotic solution of the PEC half-plane
problem.