By Michael Zeilik, David M. Gibson
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2). The gated photosensitivity of the material to the near-IR light is proportional to the density of excited small polarons, and, therefore, is proportional to their recombination lifetime. 6 mol% Li2 O) lead to substantial lattice disorder and fast nonradiative, phonon-assisted decay of Nb4+ polaron levels into deep traps and their recombination to bound bipolarons [8,10]. 6 mol% and then saturates (Fig. 2). 65 mol%) lithium niobate (Fig. 3). Post-growth reduction of near-stoichiometric crystals produces more ﬁlled bipolaron sites, which provide eﬃcient absorption for the gating light of the blue-green region of the spectrum.
Yu, S. Yin: Photorefractive Optics: Materials, Properties and Applications (Academic Press, New York 2000) 27 12. K. Buse, E. Kr¨ atzig: Three-valence charge-transport model for explanation of the photorefractive eﬀect, Appl. Phys. B 61, 27 (1995) 27, 28 13. K. Buse, A. Adibi, D. Psaltis: Non-volatile holographic storage in doubly doped lithium niobate crystals, Nature 393, 665 (1998) 28 14. K. Buse, L. Holtmann, E. Kr¨ atzig: Activation of BaTiO3 for infrared holographic recording, Opt. Commun.
Glass: Photorefractive eﬀects for reversible holographic storage of information, Appl. Phys. 8, 85 (1975) 28 22. F. Jermann, J. Otten: Light-induced charge transport in LiNbO3 :Fe at high light intensities, J. Opt. Soc. Am. B 10, 2085 (1993) 28 23. M. Simon, F. Jermann, E. Kr¨ atzig: Intrinsic photorefractive centers in LiNbO3 :Fe, Appl. Phys. B 61, 89 (1995) 28 24. K. Buse, F. Jermann, E. Kr¨ atzig: Infrared holographic recording in LiNbO3 :Cu, Appl. Phys. A 58, 191 (1994) 29, 30 25. K. Buse, F.
Cool Stars, Stellar Systems, and the Sun by Michael Zeilik, David M. Gibson