Proceedings ArticleDOI
Capacity considerations for multiplexed holographic optical data storage
Abraham Aharoni,Matthew C. Bashaw,Lambertus Hesselink +2 more
- Vol. 1914, pp 56-65
TLDR
It is found that in these optimal arrangements both methods can multiplex a similar number of paraxial data-page signals, which is comparable to conceptual storage capacity limits derived from considerations of resolution in three-dimensions.Abstract:
The capacity of volume holographic data storage depends on the multiplexing efficiency of input holographic data arrays or pages. We compare this page-packing capacity of two common approaches: angle, and wavelength multiplexing. For maximal page packing the angular separation between the reference and signal beam incidence in the angle and wavelength multiplexing methods should be 90 degree(s) and 180 degree(s), respectively. We find that in these optimal arrangements both methods can multiplex a similar number of paraxial data-page signals, which is comparable to conceptual storage capacity limits derived from considerations of resolution in three-dimensions. In practice, the high number of multiplexed data pages predicted here will be compromised by material-related noise sources.read more
Citations
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Journal ArticleDOI
Three-dimensional optical memory with a photorefractive crystal.
TL;DR: A three-dimensional optical-memory device in which refractive dot data are recorded directly into a photorefractive crystal and the distribution of the refractive index formed by a focused beam is analyzed with the charge-transport model.
Journal ArticleDOI
Parametric extension of the classical exposure-schedule theory for angle-multiplexed photorefractive recording over wide angles
TL;DR: A parametric extension of the classically derived backward-recursion algorithm that compensates for the intermingling effects of recording geometry, writing-beam intensity variations, and unique crystal behavior is presented.
References
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TL;DR: High-resolution, uniformly diffracting volume holograms in a single Fe-doped LiNbO(3) crystal are recorded by angularly multiplexing a plane-wave reference beam to compute exposure schedules.