Photorefractive Materials: Fundamental Concepts, Holographic Recording And Materials Characterization

dc.creatorFrejlich J.
dc.date2006
dc.date2015-06-30T18:03:51Z
dc.date2015-11-26T14:19:56Z
dc.date2015-06-30T18:03:51Z
dc.date2015-11-26T14:19:56Z
dc.date.accessioned2018-03-28T21:21:30Z
dc.date.available2018-03-28T21:21:30Z
dc.identifier0471748668; 9780471748663
dc.identifierPhotorefractive Materials: Fundamental Concepts, Holographic Recording And Materials Characterization. John Wiley & Sons, Inc., v. , n. , p. 1 - 309, 2006.
dc.identifier
dc.identifier10.1002/9780470089064
dc.identifierhttp://www.scopus.com/inward/record.url?eid=2-s2.0-84889298136&partnerID=40&md5=a9c7489deb7a89ca021eca6359a79574
dc.identifierhttp://www.repositorio.unicamp.br/handle/REPOSIP/102918
dc.identifierhttp://repositorio.unicamp.br/jspui/handle/REPOSIP/102918
dc.identifier2-s2.0-84889298136
dc.identifier.urihttp://repositorioslatinoamericanos.uchile.cl/handle/2250/1244092
dc.descriptionPhotorefractive Materials presents an overview of the basic features and properties of photorefractive materials, covering a wide array of related topics. It provides a coherent approach suitable for introductory and advanced students seeking to learn or review the fundamentals, as well as senior researchers who need a reference while investigating more specialized areas. © 2007 John Wiley & Sons, Inc.
dc.description
dc.description
dc.description1
dc.description309
dc.descriptionAguilar, M., Carrascosa, M., Agulló-López, F., Optimization of selective erasure in photorefractive memories (1997) J. Opt. Soc. Am. B, 14, pp. 110-115
dc.descriptionAmodei, J., Staebler, D., Holographic pattern fixing in electro-optic crystals (1971) Appl. Phys. Lett., 18, pp. 540-542
dc.descriptionAnderson, D., Ao, V.D., Popovic, D., Popovic, Z., Romisch, S., Sullivan, A., -70dB optical carrier suppression by two-wave mixing coupling in photorefractive media (2001) Appl. Phys. B, 72, pp. 743-748
dc.descriptionApostolidis, A., Mallick, S., RouSde, D., Herriau, J., Huignard, J., Polarization properties of phase gratings recorded in a Bi12SiO20 crystal (1985) Opt. Commun., 56, pp. 73-78
dc.descriptionArizmendi, L., Simple holographic method for determination of Li/Nb ratio and homogeneity of LiNbO3 crystals (1988) J. Appl. Phys., 64, pp. 4654-4656
dc.descriptionArizmendi, L., Thermal fixing of holographic gratings in Bi12SiO20 (1989) J. Appl. Phys., 65, pp. 423-427
dc.descriptionAubrecht, I., Ellin, H., Grunnet-Jepsen, A., Solymar, L., Space-charge field in photorefractive materials enhanced by moving fringes: comparison of hole-electron transport models (1995) J. Opt. Soc. Am. B., 12, pp. 1918-1923
dc.descriptionBarbosa, M.C., Frejlich, J., Photorefractive fringe-locked running hologram analysis in three-dimensional space (2003) J. Opt. A: Pure Appl. Opt., 5, pp. S416-S419
dc.descriptionBarbosa, M.C., Mosquera, L., Frejlich, J., Speed and diffraction efficiency in feedback-controlled running holograms for photorefractive crystal characterization (2001) Appl. Phys. B, 72, pp. 717-721
dc.descriptionBarbosa, M.C., De Oliveira, I., Frejlich, J., Feedback operation for fringe-locked photorefractive running hologram (2002) Opt. Commun., 201, pp. 293-299
dc.descriptionBayvel, P., McCall, M., Wright, R., Continuus method for measuring the electro-optic coefficient in Bi12SiO20 and Bi12GeO20 (1988) Opt. Lett., 13, pp. 27-29
dc.descriptionBian, S., Frejlich, J., Actively stabilized holographic recording for the measurement of photorefractive properties of a Ti-doped KNSBN crystal (1995) J. Opt. Soc. Am. B, 12, pp. 2060-2065
dc.descriptionBian, S., Frejlich, J., Sugg, B., Rupp, R.A., Multiple gratings in semi-insulating GaAs crystal (1995) Opt. Commun., 115, pp. 151-157
dc.descriptionBoas, M.L., Mathematical Methods in the Physical Sciences (1983), 2nd ed. John Wiley & Sons, New YorkBoothroyd, S., Chrostowski, J., O'Sullivan, M., Two-wave mixing by phase and absorption gratings in saturable absorbers (1989) J. Opt. Soc. Am. B, 6, pp. 766-771
dc.descriptionBorn, M., Wolf, E., Principles of Optics (1975), 5th ed. Pergamon Press, OxfordBreer, S., Buse, K., Peithmann, K., Vogt, H., Krätzig, E., Stabilized recording and thermal fixing of holograms in photorefractive lithium niobate crystals (1998) Rev. Sci. Inst., 69, pp. 1591-1594
dc.descriptionBrost, G.A., Magde, K.M., Larkin, J.J., Harris, M.T., Modulation dependence of the photorefractive response with moving gratings: numerical analysis and experiment (1994) J. Opt. Soc. Am. B, 11, pp. 1764-1772
dc.descriptionBrost, G., Norman, J., Odoulov, S., Shcherbin, K., Shumelyuk, A., Taranov, V., Gain spectra of beam coupling in photorefractive semiconductors (1998) J. Opt. Soc. Am. B, 15, pp. 2083-2090
dc.descriptionBuse, K., Light-induced charge transport processes in photorefractive crystals I:Models and experimental methods (1997) Appl. Phys. B, 64, pp. 273-291
dc.descriptionBuse, K., Adibi, A., Psaltis, D., Non-volatile holographic storage in doubly doped lithium niobate crystals (1998) Nature, 393, pp. 665-668
dc.descriptionBuse, K., Frejlich, J., Kuper, G., Krätzig, E., Dark build-up of holograms in BaTiO3 after recording (1993) Appl. Phys. A, 57, pp. 437-440
dc.descriptionBuse, K., Kämper, S., Frejlich, J., Pankrath, R., Ringhofer, K.H., Tilting of holograms in photorefractive Sr0:61Ba0:39Nb2O6 crystals by self-diffraction (1995) Opt. Lett., 21, pp. 2249-2251
dc.descriptionBylsma, R.B., Photochromic gratings in photorefractive materials (1988) Opt. Lett., 13, pp. 853-855
dc.descriptionCarrascosa, M., Agullo-Lopez, F., Theoretical modelling of the fixing and developing of holographic gratings in LiNbO3 (1990) J. Opt. Soc. Am. B, 7, pp. 2317-2322
dc.descriptionCescato, L., Frejlich, J., Self-diffraction for intrinsic optical modulation evolution measurement in photoresist (1988) Appl. Opt., 27, pp. 1984-1987
dc.descriptionCescato, L., Mendes, G.F., Frejlich, J., Stabilized holographic recording using the residual real-time effect in a positive photoresist (1987) Opt. Lett., 12, pp. 982-983
dc.descriptionCescato, L., Mendes, G.F., Frejlich, J., Fourier synthesis for fabricating blazed gratings using real-time recording effects in a positive photoresist (1988) Appl. Opt., 27, pp. 1988-1991
dc.descriptionChen, F.F., Plasma Physics and Controlled Fusion (1984), 2nd ed. Plenum Press, New YorkCollier, R.J., Burckhardt, C.B., Lin, L.H., Optical Holography (1971), Academic Press, New YorkCronin-Golomb, M., Analytic solution for photorefractive two beam coupling with time varying signal (1987), pp. 142-145. , In First Topical Meeting on Photorefractive Materials, Effects and Devices Los AngelesCronin-Golomb, M., Biernacki, A.M., Lin, C., Kong, H., Photorefractive time differentiation of coherent optical images (1987) Opt. Lett., 12, pp. 1029-1031
dc.descriptionCudney, R.S., Bacher, G.D., Pierce, R.M., Feinberg, J., Measurement of the photorefractive phase-shift (1992) Opt. Lett., 17, pp. 67-69
dc.descriptionDe Montchenault, G.H., Loiseaux, B., Huignard, J., Amplification of high bandwidth signals through two-wave mixing in photorefractive Bi12SiO20 crystals (1987) Appl. Phys. Lett., 50, pp. 1794-1796
dc.descriptionDe Oliveira, I., Frejlich, J., Dielectric relaxation time measurement in absorbing photorefractive materials (2000) Opt. Commun., 178, pp. 251-255
dc.descriptionDe Oliveira, I., Frejlich, J., Gain and stability in photorefractive two-wave mixing (2001) Phys. Rev. A, 64, p. 033806
dc.descriptionDe Oliveira, I., Frejlich, J., Photorefractive running hologram for materials characterization (2001) J. Opt. Soc. Am. B, 18, pp. 291-297
dc.descriptionDe Oliveira, I., Frejlich, J., Diffraction efficiency measurement in photorefractive thick volume holograms (2003) J. Opt. A: Pure Appl. Opt., 5, pp. S428-S431
dc.descriptionDe Oliveira, I., Frejlich, J., Arizmendi, L., Carrascosa, M., Holographic phase shift measurement during development of a fixed grating in lithium niobate crystals (2003) Opt. Lett., 28, pp. 1040-1042
dc.descriptionDe Oliveira, I., Frejlich, J., Arizmendi, L., Carrascosa, M., Self-stabilized holographic recording in reduced and oxidized lithium niobate crystals (2004) Opt. Commun., 229, pp. 371-380
dc.descriptionDe Oliveira, I., Frejlich, J., Arizmendi, L., Carrascosa, M., Nearly 100% diffraction efficiency fixed holograms in oxidized iron-doped LiNbO3 crystals using self-stabilized recording technique (2005) Opt. Commun., 247, pp. 39-48
dc.descriptionDelaye, P., Montmorillon, L., Biaggio, I., Launay, J., Roosen, G., Wavelength dependent effective trap density in CdTe: evidence for the presence of two photorefractive species (1997) Opt. Commun., 134, pp. 580-590
dc.descriptionDelboulbe, A., Fromont, C., Herriau, J., Mallick, S., Huignard, J., Quasinondestructive readout of holographically stores information in photorefractive Bi12SiO20 crystals (1989) Appl. Phys. Lett., 55, pp. 713-715
dc.descriptionDos Santos, P., Carvalho, J., Frejlich, J., Photochromism, bleaching and photorefractive recording in undoped in undoped Bi12TiO20 crystals in the visible and near infrared wavelength range (2006), Opt. Mat. accepted for publicationDos Santos, P.A.M., Garcia, P.M., Frejlich, J., Transport length, quantum efficiency and trap density measurement in Bi12SiO20 (1989) J. Appl. Phys., 66, pp. 247-251
dc.descriptionFeinberg, J., Heiman, D., Tanguay, A.R., Hellwarth, R.W., Photorefractive effects and light-induced charge migration in barium titanate (1980) J. Appl. Phys., 51, pp. 1297-1305
dc.descriptionFeynman, R., Leighton, R., Sands, M., The Feynman lectures on Physics (1964), 5th ed. Addison-Wesley Publishing Co., California Institute of TechnologyFoote, P.D., Hall, T.J., Influence of optical activity on two beam coupling constants in photorefractive Bi12SiO20 (1986) Opt. Commun., 57, pp. 201-206
dc.descriptionFowles, G.R., Introduction to Modern Optics (1975), 2nd ed. Holt, Rinehart and Winston, New YorkFrejlich, J., Garcia, P.M., Advances in real-time holographic interferometry for the measurement of vibrations and deformations (2000) Opt. Lasers. Engineering, 32, pp. 515-527
dc.descriptionFrejlich, J., Freschi, A., Garcia, P., Shamonina, E., Gayvoronsky, V., Ringhofer, K., Feedback-controlled running holograms in strongly absorbing photorefractive materials (2000) J. Opt. Soc. Am. B, 17, pp. 1517-1521
dc.descriptionFrejlich, J., Garcia, P., Quasipermanent hole-photorefractive and photochromic effects in Bi12TiO20 crystals (1992) Appl. Phys. A, 55, pp. 49-54
dc.descriptionFrejlich, J., Garcia, P.M., Cescato, L., Adaptive fringe-locked running hologram in photorefractive crystals (1989) Opt. Lett., 14, pp. 1210-1212
dc.descriptionFrejlich, J., Garcia, P.M., Cescato, L., Adaptive fringe-locked running hologram in photorefractive crystals: Errata (1990) Opt. Lett., 15, p. 1247
dc.descriptionFrejlich, J., Garcia, P.M., Ringhofer, K.H., Shamonina, E., Phase modulation in two-wave mixing for dynamically recorded gratings in photorefractive materials (1997) J. Opt. Soc. Am. B, 14, pp. 1741-1749
dc.descriptionFrejlich, J., Kamshilin, A., Garcia, P., Selective two-wave mixing in photorefractive crystals (1992) Opt. Lett., 17, pp. 249-251
dc.descriptionFrejlich, J., Montenegro, R., Inocente Junior, N.R., Dos Santos, P.V., Launay, J.C., Longeaud, C., Carvalho, J.F., Phenomenological characterization of photoactive centers in Bi12TiO20 crystals (2006), To be publishedFrejlich, J., De Oliveira, I., Arizmendi, L., Carrascosa, M., Fixed holograms in irondoped lithium niobate: simultaneous self-stabilized recording and compensation (2006), To be publishedFreschi, A.A., Frejlich, J., Stabilized photorefractive modulation recording beyond 100% diffraction efficiency in LiNbO3: Fe crystals (1994) J. Opt. Soc. Am. B, 11, pp. 1837-1841
dc.descriptionFreschi, A.A., Frejlich, J., Adjustable phase control in stabilized interferometry (1995) Opt. Lett., 20, pp. 635-637
dc.descriptionFreschi, A.A., Garcia, P.M., Frejlich, J., Charge-carriers diffusion length in photorefractive crystals computed from the initial hologram phase shift (1997) Appl. Phys. Lett., 71, pp. 2427-2429
dc.descriptionFujimura, R., Shimura, T., Kuroda, K., Recording properties of the nonvolatile hologram in Ru and Fe doped LiNbO3 crystal (2005) Trends Opt. Photonic Ser., 99, pp. 582-586
dc.descriptionGarcia, P.M., Buse, K., Kip, D., Frejlich, J., Self-stabilized holographic recording in LiNbO3: Fe crystals (1995) Opt. Commun., 117, pp. 235-240
dc.descriptionGarcia, P.M., Cescato, L., Frejlich, J., Phase-shift measurement in photorefractive holographic recording (1989) J. Appl. Phys., 66, pp. 47-49
dc.descriptionGarcia, P.M., Freschi, A.A., Frejlich, J., Krätzig, E., Scattering reduction for highly diffractive holograms in LiNbO3 crystals (1996) Appl. Phys. B, 63, pp. 207-208
dc.descriptionGeorges, M., Thizy, C., Lemaire, P., Pauliat, G., Roosen, G., Alexeenko, I., Pedrini, G., Rümmler, R., Double-pulsed holographic interferometry with photorefractive crystals for vibration and shock analysis (2005) Trends Opt. Photonic Ser., 99, pp. 661-668
dc.descriptionGerwens, A., Buse, K., Krätzig, E., Alternating photocurrents and modulated photoconductivities in photorefractive sillenite crystals (1997) Ferrolectrics, 202, pp. 203-210
dc.descriptionGlass, A.M., Von Der Linde, D., Negran, T.J., High-voltage bulk photovoltaic effect and the photorefractive process in LiNbO3 (1974) Appl. Phys. Lett., 25, p. 233
dc.descriptionGodard, A., Pauliat, G., Roosen, G., Ducloux, E., Relaxation of the single-mode emission conditions in extended-cavity semiconductor lasers with a self-organizing photorefractive filter (2004) Appl. Opt., 43, pp. 3543-3547
dc.descriptionGoodman, J.W., Introduction to Fourier Optics (1968), McGraw-Hill Book Company, San FranciscoGrabmaier, B., Oberschmid, R., Properties of pure and doped Bi12GeO20 and Bi12SiO20 crystals (1986) Phys. Stat. Sol., 96, pp. 199-211
dc.descriptionGrousson, R., Henry, M., Mallick, S., Transport properties of photoelectrons in Bi12SiO20 (1984) J. Appl. Phys., 56, p. 224
dc.descriptionGrunnet-Jepsen, A., Aubrecht, I., Solymar, L., Investigation of the internal field in photorefractive materials and measurement of the effective electro-optic coefficient (1995) J. Opt. Soc. Am. B, 12, pp. 921-929
dc.descriptionGünter, P., Huignard, J.P., Photorefractive Materials and Their Applications I (1988), 61. , of Topics in Applied Physics. P. Günter and J.-P. Huignard, Springer-Verlag, BerlinHall, T.J., Jaura, R., Connors, L.M., Foote, P.D., The photorefractive effect-a review (1985) Prog. Quantum Electronics, 10, pp. 77-146
dc.descriptionHenry, M., Mallick, S., Rouède, D., Propagation of light in an optically active electro-optic crystal of Bi12SiO20: measurement of the electro-optic coefficient (1986) J. Appl. Phys., 59, pp. 2650-2654
dc.descriptionHerriau, J., Huignard, J.P., Hologram fixing process at room temperature in photorefractive Bi12SiO20 crystals (1986) Appl. Phys. Lett., 49, pp. 1140-1142
dc.descriptionHofmeister, R., Yariv, A., Kewitsch, A., Yagi, S., Simple method of measuring the net photorefractive phase-shift and coupling constant (1993) Opt. Lett., 18, p. 488
dc.descriptionHoltmann, L., Kuper, G., Krätzig, E., Godefroy, G., Photovoltaic Holographic Recording in BaTiO3: Fe (1992) Ferroelectrics, 126, pp. 51-56
dc.descriptionHorowitz, M., Bekker, A., Fisher, B., Image and hologram fixing methods with SrxBa1-xNb2O6 crystals (1993) Opt. Lett., 18, pp. 1964-1966
dc.descriptionHorowitz, M., Kligler, D., Fisher, B., Time-dependent behavior of photorefractive two-and four-wave mixing (1991) J. Opt. Soc. B, 8, pp. 2204-2217
dc.descriptionHuignard, J., Marrakchi, A., Two-wave mixing and energy transfer in Bi12SiO20 crystals: application to image amplification and vibrational analysis (1981) Opt. Lett., 6, pp. 622-624
dc.descriptionHuignard, J.P., Herriau, J.-P., Micheron, F., Optical storage in LiNbO3: Fe with selective erasure capabilities (1975) Rev. Phys. Appliquée, 10, pp. 417-423
dc.descriptionHuignard, J.P., Herriau, J.P., Valentin, T., Time average holographic interferometry with photoconductive electrooptic Bi12SiO20 crystals (1977) Appl. Opt., 16, pp. 2796-2798
dc.descriptionHuignard, J.P., Marrakchi, A., Coherent signal beam amplification in two-wave mixing experiments with photorefractive Bi12SiO20 crystals (1981) Opt. Communo, 38, pp. 249-254
dc.descriptionImbert, B., Rajbenbach, H., Mallick, S., Herriau, J., Huignard, J., High photorefractive gain in two-beam coupling with moving fringes in GaAs: Cr crystals (1988) Opt. Lett., 13, pp. 327-329
dc.descriptionJariego, F., Agulló-López, F., Monotonic versus oscillatory behaviour during holographic writing in photorefractive photovoltaic materials (1990) Opt.Commun., 76, pp. 169-172
dc.descriptionKamshilin, A., Petrov, M., Continuous reconstruction of holographic interferograms through anisotropic diffraction in photorefractive crystals (1985) Opt. Commun., 53, pp. 23-26
dc.descriptionKhoury, J., Ryan, V., Woods, C., Cronin-Golomb, M., Photorefractive optical lockin detector (1991) Opt. Lett., 16, pp. 1442-1444
dc.descriptionKittel, C., Introduction to Solid State Physics (1996), 7th ed. John Wiley & Sons, Inc., New YorkKleider, J.P., Longeaud, C., Solid State Phenomena (1995), Scitec Publications Ltd, edited by H. Neber-AeschbacherKlein, M.B., Beam coupling in undoped GaAs at 1.06 mm using the photorefractive effect (1984) Opt. Lett., 9, pp. 350-352
dc.descriptionKogelnik, H., Coupled wave theory for thick hologram gratings (1969) Bell Syst. Tech. J., 48, pp. 2909-2947
dc.descriptionKorneev, N., Mayorga, D., Stepanov, S., Veenhuis, H., Buse, K., Kuper, C., Hesse, H., Krätzig, E., Holographic and non-steady-state photocurrent characterization of photorefractive barium-calcium titanate (1999) Opt. Commun., 160, pp. 98-102
dc.descriptionKukhtarev, N.V., Markov, V.B., Odulov, S.G., Soskin, M.S., Vinetskii, V.L., Holographic storage in electrooptic crystals. I. Steady state (1979) Ferroelectrics, 22, pp. 949-960
dc.descriptionKukhtarev, N.V., Markov, V.B., Odulov, S.G., Soskin, M.S., Vinetskii, V.L., Holographic storage in electrooptic crystals. II. Beam-coupling-light amplification (1979) Ferroelectrics, 22, pp. 961-964
dc.descriptionKumar, J., Albanese, G., Steier, W., Measurement of two-wave mixing gain in GaAs with a moving grating (1987) Opt. Commun., 63, pp. 191-193
dc.descriptionLanfredi, S., Carvalho, J.F., Hernandes, A., Electric and dielectric properties of Bi12TiO20 single crystals (2000) J. Appl. Phys., 88, pp. 283-287
dc.descriptionLeigh, W., Larkin, J., Brown, R., Characterization of Czochralski-and hydrothermal-grown Bi12SiO20 (1994) J. Appl. Phys., 76, pp. 660-666
dc.descriptionLemaire, P., Georges, M., Electrooptic coefficient measurements: correction of electric-field inhomogeneities in the transverse configuration (1992) Opt. Lett., 17, pp. 1411-1413
dc.descriptionLiu, D.T.H., Cheng, L.J., Polarization properties of degenerate four-wave mixing in gaas (1989) J. Opt. Soc. Am. B, 6, p. 1554
dc.descriptionLobato, A., Lanfredi, S., Carvalho, J.F., Hernandes, A., Synthesis, crystal growth and characterization of g-phase bismuth titanium oxide with gallium (2000) Mat. Res., 3, pp. 92-96
dc.descriptionLongeaud, C., Kleider, J.P., General analysis of the modulated photocurrent experiment including the contribution of holes and electrons (1992) Phys. Rev. B, 45, pp. 11672-11684
dc.descriptionLongeaud, C., Kleider, J.P., Kaminski, P., Koslowski, R., Pawlowski, M., Cwirko, R., Investigation of defect levels in semi-insulating materials by modulated and transient photocurrent: comparison of methods (1999) Semiconductor Science Technology, 14, p. 747
dc.descriptionMacQuigg, D.R., Hologram fringe stabilization method (1977) Appl. Opt., 16, pp. 291-292
dc.descriptionMallick, S., Rouède, D., Influence of the polarization direction on the two-Beam coupling in photorefractive Bi12SiO20: diffusion regime (1987) Appl. Phys. B, 43, pp. 239-245
dc.descriptionMallick, S., Rouède, D., Apostolidis, Efficiency and polarization characteristics of photorefractive diffraction in a Bi12SiO20 crystal (1987) J. Opt. Soc. Am. B, 4, pp. 1247-1259
dc.descriptionMalovickko, G., Grachev, V., Schirmer, O., Interrelation of intrinsic and extrinsic defects-congruent, stoichiometric, and regularly ordered lithium niobate (1999) Appl. Phys. B, 68, pp. 785-793
dc.descriptionManiloff, E.S., Johnson, K.M., Effects of scattering on the dynamics of holographic recording and erasure in photorefractive lithium niobate (1993) J. Appl. Phys., 73, pp. 541-547
dc.descriptionMarfaing, Y., State of the art and prospects of photorefractive CdTe (1999) J. Crys. Grow, 197, pp. 707-717
dc.descriptionMarinova, V., Lin, S., Sainov, V., Gospodinov, M., Hsu, K., Light-induced properties of Ru-doped Bi12TiO20 crystals (2003) J. Opt. A Pure Appl. Opt., 5, pp. S500-S506
dc.descriptionMarotz, J., Ringhofer, K.H., Reading volume gratings under the Bragg angle (1987) Opt. Commun., 64, pp. 245-247
dc.descriptionMarrakchi, A., Johnson, R.V., Tanguay, A.R., Polarization properties of photorefractive diffraction in electrooptic and optically active sillenite crystals (Bragg regime) (1986) J. Opt. Soc. Am. B, 3, pp. 321-336
dc.descriptionMcCahon, S., Rytz, D., Valley, G.C., Klein, M.B., Wechsler, B.A., Hologram fixing in Bi12TiO20 using heating and an ac electric field (1989) Appl. Opt., 28, pp. 1967-1969
dc.descriptionMéndez, A., Arizmendi, L., Maximum diffraction efficiency of fixed holograms in lithium niobate (1998) Opt. Mat., 10, pp. 55-59
dc.descriptionMiguel, E., Limeres, J., Carrascosa, M., Arizmendi, L., Study of developing thermal fixed holograms in lithium niobate (2000) J. Opt. Soc. Am. B, 17, pp. 1140-1146
dc.descriptionMoharan, M.G., Gaylord, T.K., Magnusson, R., Young, L., Holographic grating formation in photorefractive crystals with arbitrary electron transport lengths (1979) J. Appl. Phys., 50, pp. 5642-5651
dc.descriptionMollenauer, L.F., Tomlinson, W.J., Piecewise interferometric generation of precision gratings (1977) Appl. Opt., 16, pp. 555-557
dc.descriptionMontenegro, R., Inocente Junior, N.R., Frejlich, J., New possibilities for the measurement of wavelength-resolved photocondutivity (2006) Rev. Sci. Inst., 77. , 043905-1-043905-6
dc.descriptionMosquera, L., Frejlich, J., Enhanced photocurrent in photo-emf experiments in pure and doped absorbing photorefractive crystals (2002) J. Opt. Soc. Am. B, 19, pp. 2904-2910
dc.descriptionMosquera, L., De Oliveira, I., Frejlich, J., Dark conductivity, photoconductivity, and light-induced absorption in photorefractive sillenite crystals (2001) J. Appl. Phys., 90, pp. 2635-2641
dc.descriptionMuller, R., Santos, M.T., Arizmendi, L., Cabrera, J.M., A narrow-band interference filter with photorefractive LiNbO3 (1994) J. Phys. D Appl. Phys., 27, pp. 241-246
dc.descriptionMurfin, A., Dewhurst, R., Estimation of wall thinning in mild steel using laser ultrasound Lambwaves and a non-steady-state photo-emf detector (2002) Ultrasonics, 40, pp. 777-781
dc.descriptionMützel, M., Rasbach, U., Merschede, D., Burstedde, C., Braun, J., Kunoth, A., Peithmann, K., Buse, K., Atomic nanofabrication with complex light fields (2003) Appl. Phys., B77, pp. 1-9
dc.descriptionNakamura, A., Shimura, T., Kuroda, K., Stabilization of an externally-pumped phase conjugator by the control of mean phases of incident beams (1997) Opt. Commun., 135, pp. 337-341
dc.descriptionNee, I., Müller, M., Buse, K., Krätzig, E., Role of iron in lithium-niobate crystals for the dark-storage time of holograms (2000) J. Appl. Phys., 88, pp. 4282-4286
dc.descriptionNeumann, D.B., Rose, H.W., Improvement of recorded holographic fringes by feedback control (1967) Appl. Opt., 6, pp. 1097-1104
dc.descriptionNye, J.F., Physical Properties of Crystals (1979), Oxford University Press, OxfordOberschmid, R., Absorption Centers of Bi12GeO20 and Bi12SiO20 Crystals (1985) Phys. Stat. Sol. (a), 89, pp. 263-270
dc.descriptionOdoulov, S.G., Shcherbin, K.V., Shumeljuk, A.N., Photorefractive recording in BTO in the near infrared (1994) J. Opt. Soc. Am. B, 11, pp. 1780-1785
dc.descriptionOheda, H., Phase-shift analysis of modulated photocurrent: Its application to the determination of the energetic distribution of gap states (1981) J. Appl. Phys., 52, pp. 6693-6700
dc.descriptionPauliat, G., Allain, M., Launay, J.C., Roosen, G., Optical evidence of a photorefractive effect due to holes in Bi12GeO20 crystals (1987) Opt. Commun., 61, pp. 321-324
dc.descriptionPauliat, G., Roosen, G., New advances in photorefractive holographic memories (1991) Int. J. Opt. Comput., 2, pp. 271-291
dc.descriptionPedersen, H., Johansen, P., Space-charge wave theory of photorefractive parametric amplification (1999) J. Opt. Soc. Am. B, 16, pp. 1185-1188
dc.descriptionPetrov, M.P., Sokolov, I.A., Stepanov, S.I., Trofimov, G.S., Non-steady-state photo-electromotive-force induced by dynamic gratings in partially compensated photoconductors (1990) J. Appl. Phys., 68, pp. 2216-2225
dc.descriptionPetrov, M.P., Stepanov, S.I., Trofimov, G.S., Time-varying emf in a nonuniform illuminated photoconductor (1986) Sov. Tech. Phys. Lett., 12, p. 379
dc.descriptionPillonnet, A., Garoum, M., Ongano, R., Arrhenius plots of conductivity for semiconductors provided with discrete donors and acceptors distributed arbitrarily in the gap (1995) J. Phys. D Appl. Phys., 28, pp. 149-159
dc.descriptionProkofiev, V.V., Carvalho, J.F., Andreeta, J.P., Gallo, N.J.H., Hernandes, A.C., Frejlich, J., Freschi, A.A., Jaaskelainen, T., Growth and characterization of photorefractive Bi12TiO20 single crystals (1995) Crystal Res. Tech., 30, pp. 171-176
dc.descriptionRamos-Garcia, R., Chiu-Zarate, R., Nolte, D., Melloch, M., Measurement of absorption coefficient and refractive index changes without the Kramers-Kronig relation in photorefractive quantum wells of GaAs (2003) J. Opt. A Pure Appl. Opt., 5, pp. S514-S517
dc.descriptionRefregier, P., Solymar, L., Rajbenbach, H., Huignard, J., Two-beam coupling in photorefractive Bi12SiO20 crystals with moving grating: theory and experiments (1985) J. Appl. Phys., 58, pp. 45-57
dc.descriptionRen, L., Liu, L., Liu, D., Yao, B., Dynamic characteristics of holographic recording and fixing in LiNbO3: Ce: Cu crystal (2004) Opt. Commun., 238, pp. 363-369
dc.descriptionRiehemann, S., Rickermann, F., Volkov, V., Egorysheva, A., Von Bally, G., Optical and photorefractive characterization of BTO crystals doped with Cd, Ca, Ga and V (1997) J. Nonlinear Opt. Phys. Mat., 6, pp. 235-249
dc.descriptionRinghofer, K., Kamenov, V., Sturman, B., Chernykh, A., Shaping of photorefractive two-wave coupling by fast phase modulation (2000) Phys. Rev. E, 61, pp. 2029-2037
dc.descriptionRose, A., Concepts in Photoconductivity and Allied Problems (1963), Interscience Publishers, New YorkRupp, R., Microphotometric investigations of thick refractive index gratings in photorefractive crystals (1986) Appl. Phys. B, 41, pp. 153-168
dc.descriptionRupp, R.A., Investigation of the dynamic recording process of thick refractive index gratings in photorefractive crystals by the microphotometric method (1987) Appl. Phys. B, 42, pp. 21-29
dc.descriptionShamonina, E., Ringhofer, K.H., Garcia, P.M., Freschi, A.A., Frejlich, J., Shapeasymmetry of the diffraction efficiency in Bi12TiO20 crystals: the simultaneous influence of absorption and higher harmonics (1997) Opt. Commun., 141, pp. 132-136
dc.descriptionShepelevich, V., Shandarov, S., Mandel, A., Light diffraction by holographic gratings in optically active photorefractive piezocrystals (1990) Ferroelectrics, 110, pp. 235-249
dc.descriptionShimura, T., Grappin, F., Delaye, P., Iwamoto, S., Arakawa, Y., Kuroda, K., Roosen, G., Simultaneous determination of the index and absorption gratings in multiple quantum well photorefractive devices designed for lase ultrasonic sensor (2004) Opt. Commun., 242, pp. 7-12
dc.descriptionSimmons, J., Taylor, G., Nonequilibrium steady-state statistics and associated effects for insulators and semiconductors containing an arbitrary distribution of traps (1971) Phys. Rev. B, 4, pp. 502-511
dc.descriptionSochava, S., Buse, K., Krätzig, E., Non-steady-state photocurrent technique for the characterization of photorefractive BaTiO3 (1993) Opt. Commun., 98, pp. 265-268
dc.descriptionSochava, S., Buse, K., Krätzig, E., Characterization of photorefractive KNbO3: Fe by non-steady-state photocurrent techniques (1994) Opt. Commun., 105, pp. 315-319
dc.descriptionSolymar, L., Cooke, D., Volume Holography and Volume Gratings (1981), Academic Press, LondonSommerfeldt, R., Holtman, L., Krätzig, E., Grabmaier, B.C., Influence of Mg doping and composition on the light-induced charge transport in LiNbO3 (1988) Phys. Stat. Sol., 106, pp. 89-98
dc.descriptionStaebler, D.L., Amodei, J.J., Coupled-wave analysis of holographic storage in LiNbO3 (1972) J. Appl. Phys., 43, pp. 1042-1049
dc.descriptionStepanov, S., Photo-electromotive-force effect in semiconductors (2001) Semiconductor Devices, 2, pp. 205-272. , In H.S.Nalwa, editor, of Handbook of Advanced Electronic and Photonic Materials and Devices chapter 6, Academic Press, San Diego, CA
dc.descriptionStepanov, S., Korneev, N., Gerwens, A., Buse, K., Self-diffraction from the free surface relief gratings in a photorefractive Bi12TiO20 crystal (1998) Appl. Phys. Lett., 72, pp. 879-881
dc.descriptionStepanov, S., Kulikov, V., Petrov, M., Running holograms in photorefractive Bi12TiO20 crystals (1982) Opt. Commun., 44, pp. 19-23
dc.descriptionStepanov, S., Petrov, P., Photorefractive Materials and Their Applications I (1988), 61, pp. 263-289. , of Topics in Applied Physics, chapter 9, P. Günter and J.-P. Huignard, Springer-Verlag BerlinStepanov, S., Sokolov, I., Trofimov, G., Vlad, V., Popa, D., Apostol, I., Measuring vibration amplitudes in the picometer range using moving light gratings in photoconductive GaAs: Cr (1990) Opt. Lett., 15, pp. 1239-1241
dc.descriptionStrohkendl, F.P., Jonathan, J.M.C., Hellwarth, R.W., Hole-electron competition in photorefractive gratings (1986) Opt. Lett., 11, pp. 312-314
dc.descriptionSturman, B., Carrascosa, M., Agullo-Lopez, F., Limeres, J., Theory of hightemperature photorefractive phenomena in LiNbO3 crystals and applications to experiment (1998) Phys. Rev. B, 57, pp. 12792-12805
dc.descriptionSturman, B., Mann, M., Otten, J., Ringhofer, K., Space-charge waves and their parametric excitation (1993) J. Opt. Soc. Am. B, 10, pp. 1919-1932
dc.descriptionSturman, B., Shamonina, E., Mann, M., Ringhofer, K., Space-charge waves in photorefractive ferroelectrics (1995) J. Opt. Soc. Am. B, 12, pp. 1642-1650
dc.descriptionTao, S., Song, Z.H., Selviah, D.R., Bragg-shift of holographic gratings in photorefractive Fe: LiNbO3 crystals (1994) Opt. Commun., 108, pp. 144-152
dc.descriptionThizy, C., Stockman, Y., Lemaire, P., Houbrechts, Y., Mazzoli, A., Georges, M., Mazy, E., Ulbrich, G., Qualification of large reflectors in space environment with a holographic camera based on a BSO crystal (2005) Trends Opt. Photonic Ser., 99, pp. 707-713
dc.descriptionTomita, Y., Bergquist, J., Shibata, M., Photorefractive properties of undoped, Cr-doped, and Cu-doped potassium sodium strontium barium niobate crystals (1993) J. Opt. Soc. Am. B, 10, pp. 94-99
dc.descriptionTong, X., Zhang, M., Yariv, A., Agranat, A., Thermal fixing of volume holograms in potassium niobate (1996) Appl. Phys. Lett., 69, pp. 3966-3968
dc.descriptionTrofimov, G.S., Stepanov, S.I., Time-dependent holographic currents in photorefractive crystals (1986) Sov. Phys. Solid State, 28, pp. 1559-1562
dc.descriptionValley, G., Erase rates in photorefractive materials with two photoactive species (1983) Appl. Opt., 22, pp. 3160-3164
dc.descriptionValley, G., Two-wave mixing with an applied field and a moving grating (1984) J. Opt. Soc. Am. B., 1, pp. 868-873
dc.descriptionValley, G., Simultaneous electron/hole transport in photorefractive materials (1986) J. Appl. Phys., 59, pp. 3363-3366
dc.descriptionVazquez, R., Neurgaonkar, R., Ewbank, M., Photorefractive properties of SBN: 60 systematically doped with rhodium (1992) J. Opt. Soc. Am. B, 9, pp. 1416-1427
dc.descriptionVerstraeten, D., Les II-VI Photoréfractifs dans la Bande 0.6-1.5 mm pour l'Enregistrement Holographique Dynamique (2002), PhD thesis, Universites de Liege et de Bordeaux-Facultes des SciencesVerstraeten, D., Longeaud, C., Mahmoud, A.B., Von Bardeleben, H., Launay, J.C., Viraphong, O., Lemaire, P., A combined EPR and modulated photocurrent study of native defects in Bridgman grown vanadium doped cadmium telluride: the case of the telluride antisite (2003) Semicond. Sci. Technol., 18, pp. 919-926
dc.descriptionVormann, H., Weber, G., Kapphan, S., Krätzig, E., Hydrogen as origin of thermal fixing in LiNbO3: Fe (1981) Solid State Commun., 40, pp. 543-545
dc.descriptionWalsh, K., Hall, T.J., Burge, R.E., Influence of polarization state and absorption gratings on photorefractive two-wave mixing in GaAs (1987) Opt. Lett, 12, pp. 1026-1028
dc.descriptionWang, C.-C., Trivedi, S., Jin, F., Jia, K., He, H., Elliott, G., Khurgin, J., Highprecision measurement of optical frequency differences between Q-switched laser pulses using photo-electromotive-force sensors (2002) J. Opt. Soc. Am. B, 19, pp. 177-182
dc.descriptionWebb, D., Solymar, L., The effects of optical activity and absorption on two-wave mixing in Bi12SiO20 (1991) Opt. Commun., 83, pp. 287-294
dc.descriptionWeis, R.S., Gaylord, T.K., Lithium niobate: Summary of physical properties and crystal structure (1985) Appl. Phys. A, 37, pp. 191-203
dc.descriptionWiegel, M.E., Becla, P., Comparative analysis of electro-optic properties in bismuth silicate grown by the Czochralski, Bridgman-Stockbarger, and hydrothermal techniques (2004) Opt. Mat., 26, pp. 471-478
dc.descriptionYariv, A., Optical Electronics (1985), 3rd int. ed. Holt, Rinehart and Winston, New YorkYariv, A., Optical Electronics (1988), 3rd ed. John Wiley & Sons, New YorkYariv, A., Orlov, S.S., Holographic storage dynamics in lithium niobate: theory and experiment (1996) J. Opt. Soc. Am. B, 13, pp. 2513-2523
dc.descriptionYeh, P., Introduction to Photorefractive Nonlinear Optics (1993), Wiley Series in Pure and Applied Optics. John Wiley & and Sons, New York
dc.languageen
dc.publisherJohn Wiley & Sons, Inc.
dc.relationPhotorefractive Materials: Fundamental Concepts, Holographic Recording and Materials Characterization
dc.rightsfechado
dc.sourceScopus
dc.titlePhotorefractive Materials: Fundamental Concepts, Holographic Recording And Materials Characterization
dc.typeLibros


Este ítem pertenece a la siguiente institución