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Deepika, G. (2011). Holographic versatile disc. In 2011 National Conference on Innovations in Emerging Technology (pp. 145–146). Erode, India: IEEE. DOI: 10.1109/NCOIET.2011.5738819.Search in Google Scholar
Collier, R.J., Burckhardt, C.B., & Lin, L.H. (1971). Optical Holography. New York and London: Academic Press.Search in Google Scholar
Kalkum, F., Peithmann, K., & Buse, K. (2009). Dynamics of Holographic Recording with Focused Beams in Iron-Doped Lithium Niobate Crystals. Optics Express, 17 (3), 1321–1329. DOI: 10.1364/OE.17.001321Search in Google Scholar
Hendler, L., & Freedland, S. S.(1986). Image Plane Holography for Holographic Presentation of a Three-Dimensional Data Base. Comp. & Math. With Appls 12A (6), 777–784.Search in Google Scholar
Schönnagel, G. (1975). Recording and Readout of Volume Holograms in Diffraction-Limited Systems. Kvant. Elektronika 2 (8), 1622–1628 (in Russian).Search in Google Scholar
Siegman, A.E. (1977). Bragg Diffraction of a Gaussian Beam by a Crossed-Gaussian Volume Grating. J.Opt.Soc.Am 67 (4), 545–550.Search in Google Scholar
Moharam, M.G., Gaylord, T.K., & Magnusson, R. (1980). Diffraction Characteristics of Three-Dimensional Crossed-Beam Volume Gratings. J.Opt. Soc.Am. 70 (4), 437–442.Search in Google Scholar
Yakimovich, A.P. (1983). Diffraction Efficiency of Volume Phase Microholograms. Opt. Spektrosk. 55 (3), 490–494 (in Russian).Search in Google Scholar
Ozols, A., Ivanovs, Ģ., & Ļaudobelis, M. (1997). Microhologram Recording in Amorphous Semiconductor Films. Proc. SPIE 2967, 276–279.Search in Google Scholar
Ozols, A., Saharovs, Dm., & Reinfelde, M. (2006). Holographic Recording in Amorphous As2S3 Films at 633 nm. Journ. of Non-Crystalline Solids 352, 2652–2656.Search in Google Scholar
Ozols, A.O., & Schwartz, K.K. (1982). Photosensitivity Criteria of Media and Optimization of Hologram Recording. Kvant. Elektronika 9 (12), 2441–2448. (in Russian).Search in Google Scholar
Sekkat, Z., & Knoll, W. (2002). Photoreactive Organic Thin Films. Orlando, FL: Elsevier Science.Search in Google Scholar
Zhao, Y, & Ikeda, T. (2009). Smart Light-Responsive Materials. Hoboken, New Jersey: Wiley.Search in Google Scholar
Aleksejeva, J., Teteris, J., & Tokmakovs, A. (2013). Azobenzene-Containing Low Molecular Weight Organic Glasses for Optical Recording. Physics Procedia, 44, 19–24.Search in Google Scholar
Schwartz, K. (1993). The Physics of Optical Recording. Berlin: Springer Verlag.Search in Google Scholar
Prokhorov, M.A. (ed.) (1992). Physical Encyclopedia (vol. 3), 646. Moscow: Bolshaja Rossiiskaja enciklopedija (in Russian).Search in Google Scholar
Jastrzebski, Z.D. (1987). The Nature and Properties of Engineering Materials. New York: Wiley.Search in Google Scholar