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https://repositoriodspace.unipamplona.edu.co/jspui/handle/20.500.12744/9054Registro completo de metadatos
| Campo DC | Valor | Lengua/Idioma |
|---|---|---|
| dc.contributor.author | Mercado Chavarría, Jonathan Andrés. | - |
| dc.date.accessioned | 2024-10-02T16:36:28Z | - |
| dc.date.available | 2022-05-24 | - |
| dc.date.available | 2024-10-02T16:36:28Z | - |
| dc.date.issued | 2022 | - |
| dc.identifier.citation | Mercado Chavarría, J. A. (2022). Deducción de la expresión matemática que permite el cálculo del coeficiente electro-óptico efectivo en un cristal fotorrefractivo Bi12TiO20 (BTO), Para técnicas experimentales [Trabajo de Grado Pregrado, Universidad de Pamplona]. Repositorio Hulago Universidad de Pamplona. http://repositoriodspace.unipamplona.edu.co/jspui/handle/20.500.12744/9054 | es_CO |
| dc.identifier.uri | http://repositoriodspace.unipamplona.edu.co/jspui/handle/20.500.12744/9054 | - |
| dc.description | Se realiza un desarrollo para encontrar la expresión matemática que permite el cálculo del coeficiente electro-óptico lineal en un cristal fotorrefractivo, en este caso, el ´oxido de bismuto de titanio (BTO), por medio de un montaje experimental de incidencia oblicua. Con la expresión matemática se calcula la variación de intensidad transmitida, inducida por un campo eléctrico externo, lo cual permite hallar el coeficiente electro-óptico, para una determinada longitud de onda y parámetros propios del cristal BTO. En la variación de intensidad transmitida se tienen en cuenta indirectamente los coeficientes de transmisión paralelo y perpendicular al plano de incidencia y también la birrefringencia inducida por un campo eléctrico externo. Esta expresión es válida para diferentes longitudes de onda y para otros materiales birrefringentes inducidos eléctricamente. Se presenta un análisis de la variación de intensidad transmitida versus campo eléctrico aplicado. | es_CO |
| dc.description.abstract | El autor no proporciona la información sobre este ítem. | es_CO |
| dc.format.extent | 104 | 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 | Coeficiente electro-óptico. | es_CO |
| dc.subject | Fotorrefractivo. | es_CO |
| dc.subject | Cristales silenitas. | es_CO |
| dc.subject | Birrefringencia inducida. | es_CO |
| dc.title | Deducción de la expresión matemática que permite el cálculo del coeficiente electro-óptico efectivo en un cristal fotorrefractivo Bi12TiO20 (BTO), Para técnicas experimentales. | es_CO |
| dc.type | http://purl.org/coar/resource_type/c_7a1f | es_CO |
| dc.date.accepted | 2022-02-24 | - |
| dc.relation.references | A. Yariv, P. Yeh, and A. Yariv, Photonics: optical electronics in modern communications, vol. 6. Oxford University Press New York, 2007. | es_CO |
| dc.relation.references | D. H. Goldstein, Polarized light. CRC press, 2017. | es_CO |
| dc.relation.references | G. R. Fowles and D. W. Lynch, Introduction to Modern Optics. Dover publications inc, 1968. | es_CO |
| dc.relation.references | K. K. Sharma, Optics: principles and applications. Elsevier, 2006. | es_CO |
| dc.relation.references | M. P. Petrov, S. I. Stepanov, and A. V. Khomenko, Photorefractive crystals in coherent optical systems, vol. 59. Springer, 1991. | es_CO |
| dc.relation.references | A. Moura, A. Canabarro, W. Soares, E. de Lima, J. Carvalho, and P. dos Santos, “Experimental determination of effective electro-optic coefficient and electric screening field factor in the electrically induced birefringent Bi12TiO20 crystal by using an oblique incidence setup,” Optics Communications, vol. 295, pp. 197–202, 2013. | es_CO |
| dc.relation.references | J. Frejlich, Photorefractive materials: fundamental concepts, holographic recording and materials characterization. John Wiley & Sons, 2007. | es_CO |
| dc.relation.references | S. Riehemann, F. Rickermann, V. Volkov, A. Egorysheva, and G. Von Bally, “Optical and photorefractive characterization of BTO crystals doped with Cd, Ca, Ga, and V,” Journal of Nonlinear Optical Physics & Materials, vol. 6, no. 02, pp. 235–249, 1997. | es_CO |
| dc.relation.references | V. Tassev, G. Diankov, and M. Gospodinov, “Optical activity of doped sillenite crystals,” Materials research bulletin, vol. 30, no. 10, pp. 1263–1267, 1995. | es_CO |
| dc.relation.references | M. Henry, S. Mallick, D. Rou`ede, L. Celaya, and A. Garcia Weidner, “Propagation of light in an optically active electro-optic crystal of Bi12SiO20: Measurement of the electro-optic coefficient,” Journal of applied physics, vol. 59, no. 8, pp. 2650–2654, 1986. | es_CO |
| dc.relation.references | F. Vachss and L. Hesselink, “Measurement of the electrogyratory and electro-optic effects in BSO and BGO,” Optics communications, vol. 62, no. 3, pp. 159–165, 1987. | es_CO |
| dc.relation.references | I. de Oliveira, T. O. dos Santos, J. F. Carvalho, and J. Frejlich, “Electro-optic coefficient and wavelength dispersion in sillenite crystals,” Applied physics B, vol. 105, no. 2, pp. 301–304, 2011. | es_CO |
| dc.relation.references | A. Fox and T. Bruton, “Electro-optic effects in the optically active compounds Bi12TiO20 and Bi40Ga20O63,” Applied Physics Letters, vol. 27, no. 6, pp. 360–362, 1975. | es_CO |
| dc.relation.references | P. Bayvel, “Electro-optic coefficient in bso-type crystals with optical activity measurement and application to sensors,” sensors and Actuators, vol. 16, no. 3, pp. 247–254, 1989. | es_CO |
| dc.relation.references | N. Deliolanis, E. Vanidhis, and N. A. Vainos, “Dispersion of electrogyration in sillenite crystals,” Applied Physics B, vol. 85, no. 4, pp. 591–596, 2006. | es_CO |
| dc.relation.references | W. Laguado, “Caracterizaci´on ´optica de cristales fotorrefractivos Bi12SiO20: Coeficiente electro-´optico, actividad ´optica y coeficiente de absorci´on,” Tesis de Pregrado, Departamento de F´ısica,Universidad de Pamplona, 2019. | es_CO |
| dc.relation.references | D. Papazoglou, A. Apostolidis, and E. Vanidhis, “Index of refraction, optical activity and electro-optic coefficient of bismuth titanium oxide (Bi12TiO20),” Applied Physics B, vol. 65, no. 4, pp. 499–503, 1997. | es_CO |
| dc.relation.references | G. R. Fowles, Introduction to modern optics. Courier Corporation, 1989. | es_CO |
| dc.relation.references | F. Torrijos, Propiedades de materiales mediante el an´alisis de radiaci´on aleatoria. PhD thesis, Universidad polit´ecnica de Madrid, 2014. | es_CO |
| dc.relation.references | R. C. S´anchez, Dise˜no y caracterizaci´on de un esparc´ıametro de resoluci´on angular. PhD thesis, Instituto polit´ecnico nacional, centro de investigaci´on en ciencias aplicadas y tecnolog´ıa avanzada, unidad Quer´etaro, 2017. | es_CO |
| dc.relation.references | A. Yariv and P. Yeh, Optical waves in crystals, vol. 5. Wiley New York, 1984. | es_CO |
| dc.relation.references | E. Hecht, Optics. Pearson education, Addison-Wesley, 2002. | es_CO |
| dc.relation.references | R. C. Jones, “A new calculus for the treatment of optical systems i. description and discussion of the calculus,” Josa, vol. 31, no. 7, pp. 488–493, 1941. | es_CO |
| dc.relation.references | E. Collett, “Field guide to polarization, spie field guides, vol,” FG05. SPIE, vol. 57, 2005. | es_CO |
| dc.relation.references | J. C. Guti´errez, An´alisis de polarizaci´on de la interacci´on luz materia en medios anisotr´opicos. PhD thesis, Centro de investigaci´on en ´optica A.C, sede Le´on, Guanajuato, 2008. | es_CO |
| dc.relation.references | D. J. Griffiths, Introduction to electrodynamics; 3rd ed. Upper Saddle River, NJ: Prentice-Hall, 1999. | es_CO |
| dc.relation.references | S. C. Z´ılio, ´ Optica moderna: fundamentos e aplica¸c˜oes. Instituto de F´ısica de S˜ao Carlos, 2009. | es_CO |
| dc.relation.references | P. Dennery and A. Krzywicki, Mathematics for physicists. Courier Corporation, 2012. | es_CO |
| dc.relation.references | J. F. Nye et al., Physical properties of crystals: their representation by tensors and matrices. Oxford university press, 1985. | es_CO |
| dc.relation.references | S. Stepanov, S. M. Shandarov, and N. D. Khatkov, “Photoelastic contribution to the photorefractive effect in cubic crystals,” Soviet Physics, Solid State, vol. 29, no. 10, pp. 1754–1756, 1987. | es_CO |
| dc.relation.references | A. Efremidis, N. Deliolanis, C. Manolikas, and E. Vanidhis, “Dispersion of electro-optic coefficients in sillenite crystals,” Applied Physics B, vol. 95, no. 3, pp. 467–473, 2009. | es_CO |
| dc.relation.references | F. Mersch, K. Buse, W. Sauf, H. Hesse, and E. Kr¨atzig, “Growth and characterization of undoped and doped Bi12TiO20 crystals,” physica status solidi (a), vol. 140, no. 1, pp. 273–281, 1993. | es_CO |
| dc.relation.references | S. M. Efendiev, T. Kulieva, V. Lomonov, M. Chiragov, M. Grandolfo, and P. Vecchia, “Crystal structure of bismuth titanium oxide Bi12TiO20,” physica status solidi (a), vol. 74, no. 1, pp. K17–K21, 1982. | es_CO |
| dc.relation.references | V. A. Jerez, Grabado de hologramas fotorrefractivos a alta temperatura. PhD thesis, Facultad de ciencias,Escuela de f´ısica, Universidad industrial de Santander, 2011. | es_CO |
| dc.relation.references | J. Wilde, L. Hesselink, S. McCahon, M. Klein, D. Rytz, and B. Wechsler, “Measurement of electro-optic and electrogyratory effects in Bi12TiO20,” Journal of applied physics, vol. 67, no. 5, pp. 2245–2252, 1990. | es_CO |
| dc.relation.references | P. C. Lemaire and M. Georges, “Local measurement system for optical and electro-optic characterization and homogeneity analysis of photorefractive sillenite crystals,” Optical Materials, vol. 4, no. 2-3, pp. 182–187, 1995. | es_CO |
| dc.relation.references | V. Prokofiev, J. Carvalho, J. Andreeta, N. Gallo, A. Hernandes, J. Frejlich, A. Freschi, P. Garcia, J. Maracaiba, A. Kamshilin, et al., “Growth and characterization of photorefractive Bi12TiO20 single crystals,” Crystal Research and Technology, vol. 30, no. 2, pp. 171–176, 1995. | es_CO |
| dc.relation.references | A. G. Vanegas, “Implementaci´on de un procesador ´optico-virtual de encriptaci´on de transformada conjunta para la generaci´on de criptogramas camuflados,” Tesis de Pregrado, Departamento de F´ısica,Universidad de Pamplona, 2018. | 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 | |
|---|---|---|---|---|
| Mercado_2022_TG.pdf | Mercado_2022_TG | 4,5 MB | Adobe PDF | Visualizar/Abrir |
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