M. Orefice scite author profile

A hybrid numerical-analytical method for the characterization of the propagation of the transverse-electric surface waves along a high impedance surface (HIS) is presented. The HIS is obtained by a 2-D periodic repetition of a rectangular unit cell on a Cartesian grid. The unit cell consists of a microstrip line with variable width immersed in a grounded multilayer dielectric substrate. Inside the unit cell, the effective value of the dielectric is sinusoidally modulated along the direction of the microstrip line, and the dimension of the unit cell is equal to the period of the modulation. On the basis of the modulation parameters, limits of the stop/pass bands are determined analytically employing Mathieu's functions. The synthesis of the shape of the microstrip line that guarantees the desired modulation requires the numerical determination of the phase velocity-line width relationship which is not known in closed form for the considered unbounded open structure. The limits of the pass/stop bands determined analytically are in very good agreement with those found numerically and measured values for different modulation parameters. Index Terms-Electromagnetic band gap (EBG), high impedance surface (HIS), microstrip, surface impedance synthesis.

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Design of waveguide-fed series slot arrays

Orefice

Elliott

1982

IEE Proc. H Microw. Opt. Antennas UK

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Dual reflector antenna with narrow broadside beam for omnidirectional coverage

Orefice

Pirinoli

1993

Electron. Lett. (UK)

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M. Orefice

Synthetic function analysis of large printed structures: the solution space sampling approach

Controlled Leaky-Wave Radiation From a Planar Configuration of Width-Modulated Microstrip Lines

Controlling the Bandlimits of TE-Surface Wave Propagation Along a Modulated Microstrip-Line-Based High Impedance Surface

Design of waveguide-fed series slot arrays

Dual reflector antenna with narrow broadside beam for omnidirectional coverage

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