Title :
Crosstalk control for multiplex holography
Author :
Bashaw, M.C. ; Heanue, J.F. ; Hesselink, L.
Author_Institution :
Dept. of Electr. Eng., Stanford Univ., CA, USA
Abstract :
A number of spatially nonlinear-optical materials, such as photorefractive media, are suitable for volume holography. High Bragg selectivity of thick media has led to the development of applications of multiplex volume holography ranging from binary and analog data storage, to associative memory, to neural networks, to optical interconnects. An important consideration is the balance between capacity and noise. We examine here crosstalk for angular, phase-encoded, and wavelength multiplexing for holographic data storage and describe the properties of null-matched arrangement of reference waves, presenting new results for adjacent, sparse, and fractal strategies. We emphasize the impact of signal bandwidth on crosstalk and describe how crosstalk limits storage capacity. We consider first crosstalk due to Bragg mismatch (mismatch-limited crosstalk), and then relate it to other noise sources present in a holographic memory system
Keywords :
holographic storage; multiplexing; optical crosstalk; photorefractive materials; Bragg mismatch; analog data storage; associative memory; binary data storage; capacity; crosstalk control; holographic data storage; mismatch-limited crosstalk; multiplex holography; neural networks; noise; optical interconnects; photorefractive media; signal bandwidth; spatially nonlinear-optical materials; Associative memory; Crosstalk; Holographic optical components; Holography; Neural networks; Optical interconnections; Optical materials; Optical noise; Photorefractive materials; WDM networks;
Conference_Titel :
Nonlinear Optics: Materials, Fundamentals, and Applications, 1994. NLO '94 IEEE
Conference_Location :
Waikoloa, HI
Print_ISBN :
0-7803-1473-5
DOI :
10.1109/NLO.1994.470828
