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Proceedings Paper

Physical Characterization Of The Variable Grating Mode Liquid Crystal Device
Author(s): A. R. Tanguay; C. S. Wu; P. Chavel; T. C. Strand; A. A. Sawchuk; B. H. Soffer
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Paper Abstract

The physical principles of operation of the Variable Grating Mode Liquid Crystal Device are described. The VGM device is capable of performing a two-dimensional intensity-to-spatial frequency conversion, which in turn allows the implementation of a wide range of nonlinear optical processing and computing functions. The device utilizes certain nematic liquid crystal mixtures that are observed to form variable frequency diffraction gratings under the influence of an applied bias voltage. Both fundamental and technological limitations to device performance characteristics are discussed.

Paper Details

Date Published: 23 December 1983
PDF: 11 pages
Proc. SPIE 0388, Advances in Optical Information Processing I, (23 December 1983); doi: 10.1117/12.934991
Show Author Affiliations
A. R. Tanguay, University of Southern California (United States)
C. S. Wu, University of Southern California (United States)
P. Chavel, University of Southern California (United States)
T. C. Strand, University of Southern California (United States)
A. A. Sawchuk, University of Southern California (United States)
B. H. Soffer, Hughes Research Laboratories (United States)


Published in SPIE Proceedings Vol. 0388:
Advances in Optical Information Processing I
G. Michael Morris, Editor(s)

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