TM-polarized electromagnetic scattering from a periodic strip array on a grounded dielectric

Off-Bragg as well as Bragg blazing phenomena obser¨ed, in a periodic strip grating o¨er a grounded dielectric are described for the TM polarization case. Simultaneous Bragg and off-Bragg blazing phenomena are also demonstrated.

## Abstract The scattering of electromagnetic fields at the edge of a semi‐infinite dielectric slab on a rising ground is considered. The solution procedure is reduced to the solution of an aperture integral equation (A‐IE) for magnetic currents at the edge in the plane normal to the ground plane.

The diffraction problem of a Gaussian beam wa¨e by finite strip grating on a grounded dielectric for TE polarization is considered. The desired integral equation for the induced surface current density o¨er the strips is deri¨ed and sol¨ed by the method of moments. Theoretical results for off-Bragg

## Abstract The leaky‐wave radiation problem from a grounded dielectric waveguide with finite conducting periodic grooves of an arbitrary profile is considered. To check the validity of the results for the finite periodic case, an analysis method for the infinite periodic case is also considered fo

## Abstract In a recent article by Tezel (Microwave and Optical Technology Letters 50 (2008), 2768–2772), it is claimed that a new formulation and a solution method for the electromagnetic scattering problems related to cylindrical dielectric objects of arbitrary shape is presented. The author make

## Abstract In a recent comment by Çayören et al.[Microwave Opt Technol Lett 52 (2010), 246], it is claimed that formulation of the article by Tezel [Microwave Opt Technol Lett 50 (2008), 2768–2772] is not correct. In this reply, it is shown that well known electromagnetic boundary condition on die