Simple analysis of wide annular slot antennas

## Abstract The paper describes a simple procedure enabling analysis of annular slot antennas backed by a dielectric layer. The formulation assumes thin slot approximation, which, together with typical body‐of‐revolution scheme, allows to formulate the integral equations for modal magnetic current

A mixed-potential integral equation is formulated for the wide-slot antenna, fed by a microstrip line, and solved using the method of moments (MoM). Our MoM implementation makes use of the Ge and Esselle (G-E) closed-form Green's functions for layered substrates. The key advantage of this new approa

## Abstract The design of an annular‐ring slot antenna for obtaining multi‐frequency operation using a coplanar waveguide feed (CPW) or microstrip line feed is presented. The operating frequencies are obtained by means of multiple radiating elements. Details of the proposed designs are investigated

## Abstract Slotted waveguide array is analyzed using the multilevel fast multipole algorithm (MLFMA) combined with the near‐field preconditioner applied to the metallic surfaces of the waveguide structure. The approach differs from existing methods that utilize asymptotic method, method of moments

## Abstract A hybrid FEM/MoM method and a finite‐difference–time‐domain (FDTD) simulator have been employed for the modeling of irregular slot radiators in slotted waveguide antennas. Two typical examples of irregular slots are examined, namely, the T‐shaped slot radiator in a bifurcated waveguide

## Abstract An accurate Method of Moments (MoM) model is developed and implemented for the analysis of the linearly tapered slot antenna (LTSA). The model employs an unequal size reactangular sectioning for conducting parts of the antenna. Piecewise sinusoidal basis functions are used for the expan