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Campo DC | Valor | Lengua/Idioma |
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dc.contributor.author | Villamizar Amado, Astrid Lorena. | - |
dc.date.accessioned | 2022-06-09T00:09:12Z | - |
dc.date.available | 2017-05-10 | - |
dc.date.available | 2022-06-09T00:09:12Z | - |
dc.date.issued | 2017 | - |
dc.identifier.citation | Villamizar Amado, A. L. (2017). Estudio de la eficiencia de difracción en cristales silenitas [Trabajo de Grado Pregrado, Universidad de Pamplona]. Repositorio Hulago Universidad de Pamplona. http://repositoriodspace.unipamplona.edu.co/jspui/handle/20.500.12744/1579 | es_CO |
dc.identifier.uri | http://repositoriodspace.unipamplona.edu.co/jspui/handle/20.500.12744/1579 | - |
dc.description | En este trabajo se presenta un estudio de la eficiencia de difracción en términos del espesor del cristal, en redes no móviles de transmisión bajo el régimen On-Bragg. Para ello fue estudiada la propagación en medios periódicos. Además, se calculó el conjunto de ecuaciones acopladas para el mezclado de dos ondas en un cristal BTO en configuración longitudinal y transversal. | es_CO |
dc.description.abstract | La autora no proporciona la información sobre este ítem. | es_CO |
dc.format.extent | 83 | es_CO |
dc.format.mimetype | application/pdf | es_CO |
dc.language.iso | es | es_CO |
dc.publisher | Universidad de Pamplona – Facultad de Ciencias Básicas. | es_CO |
dc.subject | La autora no proporciona la información sobre este ítem. | es_CO |
dc.title | Estudio de la eficiencia de difracción en cristales silenitas. | es_CO |
dc.type | http://purl.org/coar/resource_type/c_7a1f | es_CO |
dc.date.accepted | 2017-02-10 | - |
dc.relation.references | G Gonz´alez, A Z´u˜niga, and F Maga˜na. Optimization of the diffraction efficiency in nonuniform gratings in sillenite crystals (bi12sio20 and bi12tio2) considering the variation of fringe period, optical activity and polarization angles in a strong non-linear regime. Revista mexicana de f´ısica, 55(1):25–31, 2009. VII, 3, 42, 43, 50 | es_CO |
dc.relation.references | P Yeh. Introduction to photorefractive nonlinear optics, volume 14. Wiley-Interscience, 1993. VIII, VIII, 1, 7, 9, 22, 60, 61, 62, 69 | es_CO |
dc.relation.references | ML Molina. An´alisis de vibraciones utilizando speckles modulados en cristales fotorrefractivos. PhD thesis, Universidad Industrial de Santander, 2010. VIII, 3, 16 | es_CO |
dc.relation.references | A Marrakchi, Richard V Johnson, and AR Tanguay. Polarization properties of photorefractive diffraction in electrooptic and optically active sillenite crystals (bragg regime). JOSA B, 3(2):321–336, 1986. VIII, VIII, 3, 27, 31, 42, 50 | es_CO |
dc.relation.references | D Pepper, J Feinberg, and N Kukhtarev. The photorefractive effect. Scientific American, 263(4):34–40, 1990. 2 | es_CO |
dc.relation.references | Photorefractive Effects. Materials, edited by dd nolte, 1995. 2 | es_CO |
dc.relation.references | P G¨unter and JP Huignard. Photorefractive effects and materials. In Photorefractive Materials and their applications I, pages 7–73. Springer, 1988. 2, 3 | es_CO |
dc.relation.references | P G¨unter, JP Huignard, and AM Glass. Photorefractive materials and their applications, volume 2. Springer, 1989. 2, 3 | es_CO |
dc.relation.references | K Sutter and P G¨unter. Photorefractive gratings in the organic crystal 2-cyclooctylamino-5- nitropyridine doped with 7, 7, 8, 8-tetracyanoquinodimethane. JOSA B, 7(12):2274–2278, 1990. 2 | es_CO |
dc.relation.references | S Ducharme, JC Scott, RJ Twieg, and WE Moerner. Observation of the photorefractive effect in a polymer. Physical review letters, 66(14):1846, 1991. 2 | es_CO |
dc.relation.references | C Gu, Y Xu, Y Liu, JJ Pan, F Zhou, and H He. Applications of photorefractive materials in information storage, processing and communication. Optical Materials, 23(1):219–227, 2003. 2 | es_CO |
dc.relation.references | G Unnikrishnan, J Joseph, and K Singh. Optical encryption system that uses phase conjugation in a photorefractive crystal. Applied Optics, 37(35):8181–8186, 1998. 2 | es_CO |
dc.relation.references | M Singh, A Kumar, and K Singh. Secure optical system that uses fully phase-based encryption and lithium niobate crystal as phase contrast filter for decryption. Optics & Laser Technology, 40(4):619–624, 2008. 2 | es_CO |
dc.relation.references | V Jerez. Grabado de hologramas fotorrefractivos a altas temperaturas. PhD thesis, Universidad Industrial de Santander, 2011. 2, 6 | es_CO |
dc.relation.references | LF Magana, I Casar, and JG Murillo. Beam energy exchange in sillenite crystals (bi 12 sio 20 and bi 12 tio 20), considering the variation of light modulation along sample thickness in a strong non-linear regime. Optical Materials, 30(6):979–986, 2008. 2 | es_CO |
dc.relation.references | MR Gesualdi, M Muramatsu, and EA Barbosa. Light-induced lens analysis in photorefractive crystals employing phase-shifting real-time holographic interferometry. Optics Communications, 281(23):5739–5744, 2008. 3 | es_CO |
dc.relation.references | H Kogelnik. Coupled wave theory for thick hologram gratings. Bell System Technical Journal, 48(9):2909–2947, 1969. 3 | es_CO |
dc.relation.references | JH Hong and R Saxena. Diffraction efficiency of volume holograms written by coupled beams. Optics letters, 16(3):180–182, 1991. 3 | es_CO |
dc.relation.references | ML Molina, V Jerez, and MC Lasprilla. Medida de la eficiencia de difracci´on fotorrefractiva como funci´on del vector onda de la red en un cristal bi 12 tio 20. Bistua: Revista de la Facultad de Ciencias B´asicas, 9(2), 2011. 3 | es_CO |
dc.relation.references | ML Hsieh, WC Chen, HY Chen, and SY Lin. Optimization of light diffraction efficiency and its enhancement from a doped-pmma volume holographic material. Optics Communications, 308:121–124, 2013. 3 | es_CO |
dc.relation.references | L Sahu, JS Achary, and SK Tripathy. Optimization of diffraction efficiency and polarization dependence loss in photopolymer grating for use in multichip module. 2012. 3 | es_CO |
dc.relation.references | ML Molina, M Tebaldi, and N Bolognini. Eficiencia de difracci´on del registro de speckle modulados generados a partir de superficies reflecto-difusoras. Bistua: Revista de la Facultad de Ciencias B´asicas, 10(2), 2013. 3 | es_CO |
dc.relation.references | L.M. Castro J. Rueda, L. Guerra. Eficiencia en difracci´on en redes fotorrefractivas en bi12sio20, en t´erminos de tres casos de manipulaci´on del plano de polarizaci´on de los haces de registro. Bistua, 2010. 3 | es_CO |
dc.relation.references | JE Parada. O´ ptica no lineal fotorrefractiva en el reconocimiento de patrones. 5 | es_CO |
dc.relation.references | G Ramos. Materiales h´ıbridos org´anicos-inorg´anicos preparados por el m´etodo Sol-Gel para aplicaciones hologr´aficas. PhD thesis, Universidad Aut´onoma de Madrid, 2010. 5 | es_CO |
dc.relation.references | F Fern´andez and A Sastre-Santos. Materiales fotorrefractivos org´anicos. In Anales de la Real Sociedad Espa˜nola de Qu´ımica, number 1, pages 5–13. Real Sociedad Espa˜nola de Qu´ımica, 2002. 5 | es_CO |
dc.relation.references | GF Forte. Estudio de generaci´on de autoim´agenes a partir de redes de volumen. PhD thesis, Facultad de Ciencias Exactas, 2014. 6 | es_CO |
dc.relation.references | D Gulich. www. damiangulich. com. ar. 6 | es_CO |
dc.relation.references | FS Chen. Optically induced change of refractive indices in linbo3 and litao3. Journal of applied physics, 40(8):3389–3396, 1969. 6 | es_CO |
dc.relation.references | JJ Amodei. Electron diffusion effects during hologram recording in crystals. Applied Physics Letters, 18(1):22–24, 1971. 6 | es_CO |
dc.relation.references | D Von der Linde, AM Glass, and KF Rodgers. High- sensitivity optical recording in ktn by two- photon absorption. Applied Physics Letters, 26(1):22–24, 1975. 6 | es_CO |
dc.relation.references | MP Petrov, AV Khomenko, VI Berezkin, and MV Krasinkova. Optical information recording in bi12sio20. Ferroelectrics, 22(1):651–652, 1978. 6 | es_CO |
dc.relation.references | JP Herriau, JP Huignard, and P Aubourg. Some polarization properties of volume holograms in bi 12 sio 20 crystals and applications. Applied optics, 17(12):1851–1852, 1978. 6 | es_CO |
dc.relation.references | NV Kukhtarev, VB Markov, SG Odulov, MS Soskin, and VL Vinetskii. Holographic storage in electrooptic crystals. i. steady state. Ferroelectrics, 22(1):949–960, 1978. 6 | es_CO |
dc.relation.references | J Feinberg, D Heiman, AR Tanguay Jr, and RW Hellwarth. Photorefractive effects and light-induced charge migration in barium titanate. Journal of Applied Physics, 51(3):1297– 1305, 1980. 6 | es_CO |
dc.relation.references | MCLasprilla. Registros en cristales fotorrefractivos BSO. PhD thesis, Facultad de Ciencias Exactas, 1996. 7 | es_CO |
dc.relation.references | J Mendoza. Mezcla de ondas en materiales fotorrefractivos. Master’s thesis, Universidad de Pamplona. 9 | es_CO |
dc.relation.references | LM. Castro. Estudio de condiciones experimentales para la mezcla de ondas en cristales fotorrefractivos. Master’s thesis, Universidad de Pamplona. 9 | es_CO |
dc.relation.references | GS He and SH Liu. Physics of nonlinear optics, volume 216. World Scientific, 1999. 10 | es_CO |
dc.relation.references | J Casas. Optica. librer´ıa general. Zaragoza, 1994. 23 | es_CO |
dc.relation.references | BY Martinez. Modulaci´on de coherencia ´optica con dispositivos electro-´opticos con aplicaciones en detecci´on de campos el´ectricos. 2012. 23 | es_CO |
dc.relation.references | L Solymar, DJWebb, and A Grunnet-Jepsen. The physics and applications of photorefractive materials, volume 11. Clarendon Press, 1996. 23 | es_CO |
dc.relation.references | J Frejlich. Photorefractive materials: fundamental concepts, holographic recording and materials characterization. John Wiley & Sons, 2007. 26 | es_CO |
dc.relation.references | G Velazquez. Efecto del ´angulo de polarizaci´on en la ganancia y eficiencia de difracci´on en el cristal de bso (caso paralelo), 2013. 42 | es_CO |
dc.relation.references | IR Corrales. Efecto del ´angulo de polarizaci´on en la eficiencia de difracci´on en un cristal bso (caso perpendicular), 2013. 50 | es_CO |
dc.rights.accessrights | http://purl.org/coar/access_right/c_abf2 | es_CO |
dc.type.coarversion | http://purl.org/coar/resource_type/c_2df8fbb1 | es_CO |
Aparece en las colecciones: | Física |
Ficheros en este ítem:
Fichero | Descripción | Tamaño | Formato | |
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Villamizar_2017_TG.pdf | Villamizar_2017_TG | 5 MB | Adobe PDF | Visualizar/Abrir |
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