Memory -- Three-Dimensional Optical
The following sources are recommended by a professor whose research specialty is innovation in computer memory media.
· R.R. Birge, N.B. Gillespie, E.W. Izaguirre, A. Kusnetzow, A.F. Lawrence, D. Singh, Q.W. Song, E. Schmidt, J.A. Stuart, S. Seetharaman, and K.J. Wise, Biomolecular electronics: Protein-based associative processors and volumetric memories, J. Phys. Chem. B. 103, 10746-10766 (1999).
· D.A. Parthenopoulos and P.M. Rentzepis, Three-dimensional optical storage memory, Science 245, 843-845 (1989).
· A.S. Dvornikov and P.M. Rentzepis, Two photon three-dimensional optical storage memory, Adv. Chem. 240, 161-178 (1994).
· J.F. Heanue, M.C. Bashaw, and L. Hesselink, Volume holographic storage and retrieval of digital data, Science 265, 749-752 (1994).
· R.R. Birge, Photophysics and molecular electronic applications of the rhodopsins, Annu. Rev. Phys. Chem. 41, 683-733 (1990).
· J.L. Kann, B.W. Canfield, A.A. Jamberdino, B.J. Clarke, E. Daniszewski, and G. Sunada. Mass Storage and Retrieval at Rome Laboratory. (1996). http://esdis-it.gsfc.nasa.gov/msst/conf1996/B2_2Kann.html
· R.R. Birge, B. Parsons, Q.W. Song, and J.R. Tallent, Protein-based three-dimensional memories and associative processors, in Molecular Electronics, M.A. Ratner and J. Jortner, editors. 1997, Blackwell Science, pp. 439-471.
· E.G. Paek and D. Psaltis, Optical associative memory using Fourier transform holograms. Opt. Eng. 26, 428-433 (1987).
· R.R. Birge, Protein based optical computing and memories. IEEE Computer 25, 56-67 (November, 1992).
· R.R. Birge, Protein-based computers. Scientific American 272(3), 90-95 (1995).
· P.M. Rentzepis, Three-dimensional optical memory. The Regents of the University of California: U.S. Patent No. 5,268,862 (December 7, 1993).
· J.A. Stuart, et al., Protein-based volumetric memory. Proc. IEEE Nonvol. Mem. Tech. (INVMTC) 6, 45-51 (1996).
"The Infography about Three-Dimensional Optical Memory "
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