Phased array for optical beam control
First Claim
1. An optical beam steering system which comprises:
- a plurality of liquid crystal beam deflection elements arranged in an array, said elements for independently deflecting through respective angles deflection, respective portions of an incident beam impingent upon each of said elements, wherein said array of beam deflection elements comprises;
(a) a first substrate;
(b) a plurality of transparent electrode strips on said first substrate for defining said plurality of beam deflection elements;
(c) at least two driver strip electrodes associated with each one of said plurality of electrode strips;
(d) a first insulating layer adjacent to said electrode strips and said driver strip electrodes;
(e) a liquid crystal layer adjacent to said first insulating layer;
(f) a second insulating layer on the opposite side of said liquid crystal layer from said first insulating layer;
(g) a transparent electrode layer adjacent to said second insulating layer, and(h) a second substrate;
control means for independently controlling the respective angle of deflection and phase shift induced by each of said elements such that the phase jump between abutting end points of adjacent elements is an integral number of the wavelength of the incident beam, said control means comprising drive electronics for applying voltages across each of said elements so as to individually control said elements in response to external control signals, andmeans for controlling said control means so as to steer said incident beam as a spatially phase coherent deflected beam through a steering angle relative to said incident beam, said deflected beam being composed of the portions deflected by said elements with spatial phase coherence with respect to each other.
1 Assignment
0 Petitions
Accused Products
Abstract
An optical beam scanner incorporating an array of beam deflection elements commonly controlled to steer an optical beam impingent on the array is described. The beam steering elements are arranged in the array as individually controlled elements and the deflection of the beam is accomplished by setting the phase tilt and the phase offset of each element according to a calculation which removes modulo 2π phase shift from the required position relative to a flat plane. Thus, the array elements can be thin and need only supply about 2 radians of phase shift. These elements may be incorporated in a planar array using beam deflection elements such as liquid crystal beam deflectors by choosing a drive scheme representing either a blazed array or a flat piston array. Operation may be designed for a large range of light wavelengths and the system may efficiently accommodate a combination of the blazed and flat piston techniques to obtain beam deflection characteristics otherwise unavailable by the exclusive use of each individual technique. By use of the liquid crystal phased array approach, rapid, high accuracy, large area beam deflection is possible without the necessity of any moving parts and with low power drive requirements. Phased arrays of the type described above may be arranged in successive parallel planes with a common beam axis to provide two-dimensional beam deflection.
84 Citations
10 Claims
-
1. An optical beam steering system which comprises:
-
a plurality of liquid crystal beam deflection elements arranged in an array, said elements for independently deflecting through respective angles deflection, respective portions of an incident beam impingent upon each of said elements, wherein said array of beam deflection elements comprises; (a) a first substrate; (b) a plurality of transparent electrode strips on said first substrate for defining said plurality of beam deflection elements; (c) at least two driver strip electrodes associated with each one of said plurality of electrode strips; (d) a first insulating layer adjacent to said electrode strips and said driver strip electrodes; (e) a liquid crystal layer adjacent to said first insulating layer; (f) a second insulating layer on the opposite side of said liquid crystal layer from said first insulating layer; (g) a transparent electrode layer adjacent to said second insulating layer, and (h) a second substrate; control means for independently controlling the respective angle of deflection and phase shift induced by each of said elements such that the phase jump between abutting end points of adjacent elements is an integral number of the wavelength of the incident beam, said control means comprising drive electronics for applying voltages across each of said elements so as to individually control said elements in response to external control signals, and means for controlling said control means so as to steer said incident beam as a spatially phase coherent deflected beam through a steering angle relative to said incident beam, said deflected beam being composed of the portions deflected by said elements with spatial phase coherence with respect to each other. - View Dependent Claims (2, 3, 4, 5)
-
-
6. A beam steering apparatus which comprises:
-
a plurality of beam deflection elements, said elements arranged in an array of rows and columns, said elements for individually deflecting respective portions of an incident beam, each said element further comprising; a first transparent resistive electrode strip on which the incident beam is incident; a refractive layer positioned adjacent to said first electrode layer; a second transparent electrode layer which is part of a continuous electrode layer common to all of said elements; and two drive electrodes associated with said first electrode strip, said two drive electrodes having higher conductivity than said first electrode strip, said elements arranged adjacent to each other so that there is a finite gap for electrical isolation between said electrode strips associated with adjacent said elements; means for controlling said beam deflection elements in said rows in cooperation with one another, said means including means for applying drive voltages to said two drive electrodes associated with each said element to produce a voltage gradient across the respective refractive layer such that a linear phase shift is produced in the respective portion of said incident beam, said drive voltages having magnitudes suitable for inducing progressively varying phase shifts with periodic phase offsets so that each portion is steered, and the phase shifts between abutting end points of adjacent elements is an integral number of the wavelengths of the incident beam; and means for supplying signals to said means for controlling such that each steered portion is phase coherent with the other steered portions. - View Dependent Claims (7, 8, 9, 10)
-
Specification