Published April 15, 1997
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Journal Article
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Compact, integrated dynamic holographic memory with refreshed holograms
Abstract
An innovative architecture for compact, integrated volume holographic memories is described. It is based on phase-conjugate readout and on a modulator–detector–memory array implemented in a silicon integrated circuit. The lensless memory module sustains dynamic read–write holograms by periodic refreshing. The integrated circuit is described and experimentally characterized. Holograms were stored in a prototype storage module that uses a 30 degree-cut BaTiO3 crystal and the 90± recording geometry. As many as three angularly multiplexed holograms were periodically refreshed and subjected to .40% decay from exposure to the reference beam over 50 to 100 cycles. Experimental data are presented.
Additional Information
© 1997 Optical Society of America Received November 8, 1996 This work was supported by the Advanced Research Projects Agency and the National Science Foundation Center for Neuromorphic Systems Engineering at the California Institute of Technology. J.-J. P. Drolet acknowledges support from the Natural Sciences and Engineering Research Council of Canada. The authors express their gratitude to Y. Liu for her technical assistance.Files
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- CaltechAUTHORS:DROol97
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