A simple approach to closed-form Green's functions of microstrip structures

## Abstract Based upon three‐level approximation and the steepest descent path (SDP) method, we consider a robust approach for the derivation of a new class of closed‐form Green's functions for microstrip structures. Some numerical results are presented for the validation of the present method. It

Closed form expressions for the Green's functions of a planar microstrip structure on an electrically thin uniaxially anisotropic substrate have been derived. The approach is to first obtain the quasi-dynamic term and refine its accuracy with a correction term valid for higher frequencies. The quasi

A set of closed-form Green's functions is used in a mixed-potential integral-equation technique for the efficient modeling of planar microstrip structures of arbitrary shape on an electrically thin substrate. Various MMIC and microstrip antenna structures are simulated. It is shown that excellent ac

The spatial-domain Green's functions for the vector and scalar potentials in planar stratified media are cast into closed forms via a two-level approximation of their spectral-domain counterparts. The proposed methodology begins with the approximation of the spectral-domain Green's functions over la

## 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

The electric fields of the spatial Green's functions of microstrip structures are calculated by numerically integrating the Sommerfeld integrals along the Sommerfeld integration paths. To facilitate and accelerate con¨ergence, a higher order asymptotic extraction is made in the integrand. The electr