Leaky-wave propagation in a linear microstrip array

An X-band two-element back-to-back coupled-oscillator-dri¨en spatial power-combining microstrip leaky-wa¨e antenna array is de¨eloped, which has a dual-beam radiation pattern and mode-switching capability. Two Gunn diode CPW oscillators are placed on the back side of the substrate, each dri¨ing two

## Abstract The purpose of this paper is to report on a microstrip reconfigurable antenna in the millimeter‐wave range. This antenna has directivity diversity and is based on a four‐element array. An original method is outlined to guarantee matching for each configuration without changing circuit.

An X-band four-element linear microstrip leaky-wa¨e ( ) antenna LWA array with a dual-beam radiation pattern and twodimensional scanning capability is de¨eloped. The measured halfpower beamwidths of the H-plane and quasi-E-plane radiation patterns are less than 30Њ. By tuning the dc bias of the ¨ara

Figure 10 Frequency drift as a function of the dc voltage applied to the active antenna oscillator. Voltage is varied from nominal V s 6 cc V to V s 4.5 V cc network, a standard MPIE technique using the multilayered media Green's functions is implemented. Once the scattering matrices of both compon

## Abstract The present paper computes the normalized phase constant, dielectric loss, and conductor loss of the voltage‐controlled Schottky‐contact microstrip line using the variational method based on the single‐layer reduction (SLR) formulation. Results computed by the SLR formulation show very