A fast analysis of electromagnetic scattering by arbitrarily shaped homogeneous dielectric objects

The standard hybrid finite-element boundary-integral ( ) FE᎐BI technique has been extended to deal with the problem of electromagnetic scattering from buried objects. The presence of the ground᎐air interface is taken into account by using the half-space Green's function, thus reducing the number of

## Abstract In this study, a new and computational effective method related to electromagnetic scattering from arbitrary shaped dielectric objects is proposed. This method is based on Taylor series expansion of fields with unknown coefficients on the circles that are inside and outside of object. B

## Abstract In this Letter a new type of combined field integral equation (CFIE) is proposed and applied for electromagnetic scattering by three‐dimensional dielectric objects of arbitrary shape. In this formulation, traditional CFIE is applied outside the object, and inside the object the electric

## 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

of linear chirping, and they were able to explain the distortion effects due to ''dispersive'' propagation of chirped pulses assuming only high values of the semiconductor laser extinction ratio. In high-bit-rate systems, such a parameter is instead rather low, and this imposes more accurate analysi