Ghassemiparvin, B.Altintas, A.2016-02-082016-02-082014-020018-926Xhttp://hdl.handle.net/11693/26343In this study, scattering from impedance bodies positioned at the edge of a perfectly electrically conducting wedge is investigated. In the treatment of the problem, eigenfunction expansion in terms of spherical vector wave functions is employed. A complete dyadic Green's function for the spherical impedance boss at the edge is developed. It is observed that the scattering is highly enhanced by the edge guided waves. Additionally, using T-matrix method, the solution is extended to the general case of irregularly shaped scatterers. The T-matrix solution is verified by applying it to the case of a spherical scatterer and results are compared with the dyadic Green's function solution. © 2013 IEEE.EnglishDyadic Green's functionElectromagnetic scatteringSpherical vector wave functionsT-matrixWedge scatteringScattering from an impedance object at the edge of a perfectly conducting wedgeArticle10.1109/TAP.2013.22901151558-2221