Electro-optic beam scanner
First Claim
1. A millimeter wavelength scanner in the path of millimeter wavelength radiation for modifying the direction of a beam of millimeter wavelength radiation passing therethrough and comprising a block of ferroelectric material with parallel input and output sides generally perpendicular with respect to the path of said millimeter wavelength radiation;
- electrode means, disposed on opposite surfaces of said block of ferroelectric material, for progressively varying the refractive index of said ferroelectric material along a predetermined axis; and
thereby impressing a phase change on said radiation passing therethrough andcontrolling means for establishing a predetermined distribution of voltage on said electrode means to vary said refractive index in a predetermined manner, characterized in that;
said electrode means includes first and second pluralities of parallel wires disposed on said opposite surfaces perpendicular to said axis;
said controlling means includes means for setting up at least two zones of adjacent wires in said electrode means with at least one transition zone therebetween and for impressing upon said at least two zones of wires a progressively changing voltage distribution corresponding to a desired phase change distribution impressed upon electromagnetic radiation traveling through said ferroelectric material; and
said progressively changing voltage distribution is further characterized in that the difference in phase change between the phase change impressed in a first side of a transition zone in a first zone of said at least two zones and the phase change impressed in a second side of said transition zone in a second zone is a multiple of two pi radians, whereby said phase changes imposed on said electromagnetic radiation in said first and second zones reinforce.
3 Assignments
0 Petitions
Accused Products
Abstract
A scanner (13) of ferroelectric material (17) for redirecting the orientation of a beam (22) of millimeter wavelength radiation. The scanner (13) includes parallel input and output sides with matching layers (44). Adjacent and opposite parallel wire grid electrodes (31'"'"') are addressed with progressive voltage difference excitation levels across the face of the ferroelectric material in order progressively to modify the refractive index distribution of the scanner and thereby conduct effective beam steering.
75 Citations
4 Claims
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1. A millimeter wavelength scanner in the path of millimeter wavelength radiation for modifying the direction of a beam of millimeter wavelength radiation passing therethrough and comprising a block of ferroelectric material with parallel input and output sides generally perpendicular with respect to the path of said millimeter wavelength radiation;
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electrode means, disposed on opposite surfaces of said block of ferroelectric material, for progressively varying the refractive index of said ferroelectric material along a predetermined axis; and
thereby impressing a phase change on said radiation passing therethrough andcontrolling means for establishing a predetermined distribution of voltage on said electrode means to vary said refractive index in a predetermined manner, characterized in that; said electrode means includes first and second pluralities of parallel wires disposed on said opposite surfaces perpendicular to said axis; said controlling means includes means for setting up at least two zones of adjacent wires in said electrode means with at least one transition zone therebetween and for impressing upon said at least two zones of wires a progressively changing voltage distribution corresponding to a desired phase change distribution impressed upon electromagnetic radiation traveling through said ferroelectric material; and said progressively changing voltage distribution is further characterized in that the difference in phase change between the phase change impressed in a first side of a transition zone in a first zone of said at least two zones and the phase change impressed in a second side of said transition zone in a second zone is a multiple of two pi radians, whereby said phase changes imposed on said electromagnetic radiation in said first and second zones reinforce. - View Dependent Claims (2, 3, 4)
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Specification