The layered medium Green's function—A new look

A new form of the Green 'sfunction for a gyrotropic medium is found. It contains I D nonsingular integrals only. Numerical investigation of the received Green's function was done, and areas of low attenuation were revealed. In the high-frequency case the Green's function is expressed Llia elementary

## Abstract The dyadic Green's function in spherically layered media is considered by assuming that source and field points can be located anywhere. After manipulations from the expression of the dyadic Green's function based on the reflections and transmissions of the scalar waves, the dyadic Gree

## Abstract A numerical method for the calculation of the Green's function related to a layered media containing rough interfaces is presented. The method is based on the assumption that the perturbations of the rough surfaces from planar ones are objects located at both sides of the planar boundar

## Abstract A new formalism combining modal expansions based on perfectly matched layers (PMLs) and on Floquet modes is proposed to derive a fast‐converging series expansion for the 2D Green's function of layered media. The PML‐based modal expansion is obtained by terminating the waveguide, formed

## Abstract This paper presents a fast spatial‐domain method of moments (MoM) to analyze microstrip circuits and antennas. The method is based on a new closed‐form Green's function for layered structures. Using this method, one can derive closed‐form expressions for the matrix elements involved in

Recently, Altuncu et al. [1] presented a new method for evaluation of Green's function of rough surfaces by buried object approach. However, article in [1] is exactly same as Appendix I part of authors' previous article in [2] and also same as authors' previous article in [3] added with new author.