Add to ORKGA numerically efficient technique for the analysis of slot-line geometries in multilayer media is presented using closed-form Green's functions in the spatial domain employed in conjunction with the Method of Moments (MoM). The computed equivalent magnetic current distribution on the slot is used to determine the power radiated by the slot and the input impedance. In power calculations, the spatial domain Green's functions are approximated as a power series of radial distance, and the integrals involving the Green's functions are carried out analytically saving considerable amount of computation time
A numerically efficient technique for the analysis and design of MMIC circuits is introduced and app...
The development of computationally efficient Green's functions in layered-media environments is impo...
The development of computationally efficient Green's functions in layered-media environments is impo...
A numerically efficient technique for the analysis of slot geometries in multilayer media is present...
Cataloged from PDF version of article.A numerically efficient technique for the analysis of slot geo...
A hybrid method to calculate mutual coupling of electric or magnetic current elements on a cylindric...
This paper presents a fast spatial-domain method of moments (MoM) to analyze microstrip circuits and...
The Method of Moments (MoM) has been widely used for the full-wave electromagnetic analysis of plana...
The closed-form Green's functions of the vector and scalar potentials in the spatial domain are pres...
A general class of microstrip structures is investigated in this work by using a spatial domain Gree...
A general class of microstrip structures is investigated in this work by using a spatial domain Gree...
With the use of casting the spatial domain Green's functions into closed forms approach, it was demo...
This sequence of papers presents an analytical closed form for the Green's function of an infinite s...
An efficient and rigorous method for the analysis of planarly layered geometries with vertical metal...
The development of computationally efficient Green's functions in layered-media environments is impo...
A numerically efficient technique for the analysis and design of MMIC circuits is introduced and app...
The development of computationally efficient Green's functions in layered-media environments is impo...
The development of computationally efficient Green's functions in layered-media environments is impo...
A numerically efficient technique for the analysis of slot geometries in multilayer media is present...
Cataloged from PDF version of article.A numerically efficient technique for the analysis of slot geo...
A hybrid method to calculate mutual coupling of electric or magnetic current elements on a cylindric...
This paper presents a fast spatial-domain method of moments (MoM) to analyze microstrip circuits and...
The Method of Moments (MoM) has been widely used for the full-wave electromagnetic analysis of plana...
The closed-form Green's functions of the vector and scalar potentials in the spatial domain are pres...
A general class of microstrip structures is investigated in this work by using a spatial domain Gree...
A general class of microstrip structures is investigated in this work by using a spatial domain Gree...
With the use of casting the spatial domain Green's functions into closed forms approach, it was demo...
This sequence of papers presents an analytical closed form for the Green's function of an infinite s...
An efficient and rigorous method for the analysis of planarly layered geometries with vertical metal...
The development of computationally efficient Green's functions in layered-media environments is impo...
A numerically efficient technique for the analysis and design of MMIC circuits is introduced and app...
The development of computationally efficient Green's functions in layered-media environments is impo...
The development of computationally efficient Green's functions in layered-media environments is impo...