M. Romagnoli, W.E. Moerner, et al.
Journal of the Optical Society of America B: Optical Physics
Materials exhibiting persistent spectral hole-burning via a gated mechanism are promising candidates for the development of frequency domain optical storage densities beyond 109 bits/cm2. Gated hole-burning requires a secondary gating field for writing, permitting nondestructive reading in the absence of this field. Properties of gated hole-burning materials suited for a practical storage system are analyzed with particular attention to the required values of absorption cross section, density of centers, and effective hole-burning yield. The results permit evaluation of the usefulness of particular gated hole-burning materials for storage applications. Some general guidelines for photon-gated mechanisms using three-level and four-level systems are presented. © 1986.
M. Romagnoli, W.E. Moerner, et al.
Journal of the Optical Society of America B: Optical Physics
W.J. Kozlovsky, W. Lenth, et al.
Applied Physics Letters
P. Pokrowsky, W.E. Moerner, et al.
Proceedings of SPIE 1989
A.G. Dewey, W. Lenth
ISOM/ODS 1993