A pair of equally excited but oppositely sensed Archimedean two-wire spirals situated close to one another in the same plane - a doublet - is used to generate a linearly polarized field in which the direction of polarization and phase are controlled or varied independently by rotation of the spiral radiators. An array of these doublets can be made to scan by rotation of the several spiral elements; an eight-doublet array which was made to scan over an 83-degree sector with small amplitude variation is discussed. A doublet fed from a ring network can be employed as a polarization diversity circuit. A virtual doublet is achieved by placing a single spiral in a right-angle trough. A preliminary scanning array comprising four spirals in a trough was made to scan ±36 degrees. The possibility of using a parasitic spiral in conjunction with a driven spiral for obtaining linear polarization of variable direction and phase is indicated. Also, a brief simplified analysis of the two-wire Archime¬dean spiral is presented, which leads to the concept of higher-order modes of radiation.
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