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Proceedings Paper

Symbolic Substitution Using ZnS Interference Filters
Author(s): L. Wang; H. M. Chou; H. M. Gibbs; G. C. Gigioli; G. Khitrova; H.-M. Kulcke; R. Jin; H. A. Macleod; N. Peyghambarian; R. W. Sprague
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Paper Abstract

ZnS interference filters can be used as optical logic elements to demonstrate symbolic substitution. A one-bit adder serves as a first step toward digital optical computing. Experimental implementation and related problems are addressed.

Paper Details

Date Published: 11 August 1987
PDF: 4 pages
Proc. SPIE 0752, Digital Optical Computing, (11 August 1987); doi: 10.1117/12.939904
Show Author Affiliations
L. Wang, University of Arizona (United States)
H. M. Chou, University of Arizona (United States)
H. M. Gibbs, University of Arizona (United States)
G. C. Gigioli, University of Arizona (United States)
G. Khitrova, University of Arizona (United States)
H.-M. Kulcke, University of Arizona (United States)
R. Jin, University of Arizona (United States)
H. A. Macleod, University of Arizona (United States)
N. Peyghambarian, University of Arizona (United States)
R. W. Sprague, University of Arizona (United States)


Published in SPIE Proceedings Vol. 0752:
Digital Optical Computing
Raymond Arrathoon, Editor(s)

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