Radiation from narrow circumferential slots on a conducting circular cylinder is analyzed. The incident TM/sub 01/ mode is assumed to propagate along a thick conducting cylinder multiply slotted inâ€¦ (More)

The problem of a leaky coaxial cable with narrow transverse slots is solved by using the Fourier transform and mode-matching techniques. The characteristics of far-field radiation and near-fieldâ€¦ (More)

Radiation from a ferrite-filled waveguide with multiple thick slits is investigated. The Fourier transform and mode matching are utilized to obtain a rigorous solution. The effect of the ferriteâ€¦ (More)

The characteristics of tunable notch filter of ferrite-filled grooves in parallel plates are investigated. The Fourier transform and mode matching is used to obtain a simple, rigorous solution. Theâ€¦ (More)

Electromagnetic wave scattering from a slotted conducting wedge is studied. The Kontorovich-Lebedev transform and the mode-matching are utilized to obtain a convergent series solution. Computationsâ€¦ (More)

The electrostatic boundary-value problem of a slotted conducting wedge is solved by using the Mellin transform. Eigenfunction expansions are used to represent the fields, and boundary conditions areâ€¦ (More)

A cylindrical cavity-backed antenna excited by Hertzian dipoles is investigated. A Green's function approach is used to account for arbitrarily oriented dipoles. Scattered fields are expanded inâ€¦ (More)

Electromagnetic coupling between coaxially fed monopoles in a parallel-plate waveguide is investigated. The boundary-value problem of monopoles in a parallel-plate waveguide is solved using theâ€¦ (More)

Electromagnetic wave radiation from cavity-backed apertures in a conducting plane is investigated. The Fourier transform and mode matching technique are used to obtain simultaneous equations for theâ€¦ (More)

The propagation problem of an axially slotted coaxial cable is investigated using the mode-matching technique. The outer conductor of a coaxial cable has a finite thickness and the fields areâ€¦ (More)