Measurement of nonlinear refractive index of organic materials by z-scan

The nonlinear effects characterization by using the Z-Scan transmission technique in many materials has generated great in forest according to the technological necessities. The majority part of the nonlinear effects can be described by the classic electromagnetic theory, with the electrical suscept...

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Autores:: Fontalvo, M.
García, Aday
Valbuena Duarte, Sonia
Racedo, Fran

Tipo de recurso:: Article of journal

Fecha de publicación:: 2016

Institución:: Corporación Universidad de la Costa

Repositorio:: REDICUC - Repositorio CUC

Idioma:: eng

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repository_id_str
dc.title.spa.fl_str_mv	Measurement of nonlinear refractive index of organic materials by z-scan
dc.title.translated.spa.fl_str_mv	Medición del índice de refracción no lineal de materiales orgánicos mediante z-scan
title	Measurement of nonlinear refractive index of organic materials by z-scan
spellingShingle	Measurement of nonlinear refractive index of organic materials by z-scan Aromatic compounds Characterization Electric fields Electromagnetic field effects Electromagnetic field theory Laser excitation Laser theory Nanoscience Nanotechnology Neodymium lasers Nonlinear equations Nonlinear opticsOrganic lasers Compuestos aromáticos Caracterización Campos eléctricos Efectos del campo electromagnético. Teoría del campo electromagnético Excitación láser Teoría láser Nanociencia Nanotecnología Láseres de neodimio Ecuaciones no lineales Óptica no lineal Láseres orgánicos
title_short	Measurement of nonlinear refractive index of organic materials by z-scan
title_full	Measurement of nonlinear refractive index of organic materials by z-scan
title_fullStr	Measurement of nonlinear refractive index of organic materials by z-scan
title_full_unstemmed	Measurement of nonlinear refractive index of organic materials by z-scan
title_sort	Measurement of nonlinear refractive index of organic materials by z-scan
dc.creator.fl_str_mv	Fontalvo, M. García, Aday Valbuena Duarte, Sonia Racedo, Fran
dc.contributor.author.spa.fl_str_mv	Fontalvo, M. García, Aday Valbuena Duarte, Sonia Racedo, Fran
dc.subject.spa.fl_str_mv	Aromatic compounds Characterization Electric fields Electromagnetic field effects Electromagnetic field theory Laser excitation Laser theory Nanoscience Nanotechnology Neodymium lasers Nonlinear equations Nonlinear opticsOrganic lasers Compuestos aromáticos Caracterización Campos eléctricos Efectos del campo electromagnético. Teoría del campo electromagnético Excitación láser Teoría láser Nanociencia Nanotecnología Láseres de neodimio Ecuaciones no lineales Óptica no lineal Láseres orgánicos
topic	Aromatic compounds Characterization Electric fields Electromagnetic field effects Electromagnetic field theory Laser excitation Laser theory Nanoscience Nanotechnology Neodymium lasers Nonlinear equations Nonlinear opticsOrganic lasers Compuestos aromáticos Caracterización Campos eléctricos Efectos del campo electromagnético. Teoría del campo electromagnético Excitación láser Teoría láser Nanociencia Nanotecnología Láseres de neodimio Ecuaciones no lineales Óptica no lineal Láseres orgánicos
description	The nonlinear effects characterization by using the Z-Scan transmission technique in many materials has generated great in forest according to the technological necessities. The majority part of the nonlinear effects can be described by the classic electromagnetic theory, with the electrical susceptibility in the constitutive equation that relates the electrical polarization with the electrical field. In this work the sign and refractive index magnitude and the nonlinear absorption coefficient of the following organic substance were determined: methylene-blue, rodamine LD, vegetable powder and gentian violet a hundred percent pure dissolved in isopropyl alcohol, a laser Nd: YAG was used as a source excitation. The bunch of laser was focused with a lens of ten centimeters of focal length; by using a displacement system the sweeping of twenty centimeters was realized. The following results of the normalized curves of the transmittance in function of the z position were obtained applying the Sheik- Bahae theory: The nonlinear refractive index of the dye shows an increase in function of its concentration and the power of exciting of the laser with negative nonlinear sign in the majority of the sample.
publishDate	2016
dc.date.issued.none.fl_str_mv	2016-04-20
dc.date.accessioned.none.fl_str_mv	2019-05-08T18:03:58Z
dc.date.available.none.fl_str_mv	2019-05-08T18:03:58Z
dc.type.spa.fl_str_mv	Artículo de revista
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dc.identifier.issn.spa.fl_str_mv	17426588
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dc.identifier.instname.spa.fl_str_mv	Corporación Universidad de la Costa
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identifier_str_mv	17426588 Corporación Universidad de la Costa REDICUC - Repositorio CUC
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dc.language.iso.none.fl_str_mv	eng
language	eng
dc.relation.references.spa.fl_str_mv	R Boyd 2007 Nonlinear optics 3rd ed (New York: Academic Press) M Sheik-Bahae, A A Said, T Wei, D J Hagan, E W V Stryland 1990 IEEE J Quantum Elect 26 760769 A García, S Valbuena, R sarmiento, F Racedo 2015 Óptica Pura y Aplicada 48-1 55 New Geoffrey 2011 Introduction to nonlinear optics (New York: Cambridge University Press) Piovesan E, De Bonl L, Mendoca C R 2006 Efeitos ópticos lineares e não lineares em derivados de perilenos - workshop da pós-graduação do IFSC (São Carlos: IFSC) Gomez S L, Cuppo F L S and Figueiredo A M 2003 Brazilian Journal of Physics 33-4 813 Linares R y Nicho Diaz M A 2010 Sociedad Mexicana de Ciencias y Tecnología de superficies y Materiales, Superficie y Vacío 23-S 85 Tingchao He Yongguang Cheng, Yabing Du, Yujun Mo 2007 Optics Communications 275-1 240 Qusay Mohammed Ali and P K Palanisamy 2005 Optik International Journal for Light and Electron Optics 116-11 515 A Anwaar AL- Dergazly and Aqueel Fadhel 2010 Advanced research in physics and engineering nanotecnology Proccedings of the 2nd WSEAS International Conference on Nanotechnology (UK: WSEAS Press) pp 144-149
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dc.publisher.spa.fl_str_mv	Journal of Physics: Conference Series
institution	Corporación Universidad de la Costa
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spelling	Fontalvo, M.García, AdayValbuena Duarte, SoniaRacedo, Fran2019-05-08T18:03:58Z2019-05-08T18:03:58Z2016-04-2017426588https://hdl.handle.net/11323/3264Corporación Universidad de la CostaREDICUC - Repositorio CUChttps://repositorio.cuc.edu.co/The nonlinear effects characterization by using the Z-Scan transmission technique in many materials has generated great in forest according to the technological necessities. The majority part of the nonlinear effects can be described by the classic electromagnetic theory, with the electrical susceptibility in the constitutive equation that relates the electrical polarization with the electrical field. In this work the sign and refractive index magnitude and the nonlinear absorption coefficient of the following organic substance were determined: methylene-blue, rodamine LD, vegetable powder and gentian violet a hundred percent pure dissolved in isopropyl alcohol, a laser Nd: YAG was used as a source excitation. The bunch of laser was focused with a lens of ten centimeters of focal length; by using a displacement system the sweeping of twenty centimeters was realized. The following results of the normalized curves of the transmittance in function of the z position were obtained applying the Sheik- Bahae theory: The nonlinear refractive index of the dye shows an increase in function of its concentration and the power of exciting of the laser with negative nonlinear sign in the majority of the sample.La caracterización de los efectos no lineales mediante el uso de la técnica de transmisión Z-Scan en muchos materiales ha generado excelentes en los bosques de acuerdo con las necesidades tecnológicas. La mayoría de los efectos no lineales pueden describirse mediante la teoría electromagnética clásica, con la susceptibilidad eléctrica en la ecuación constitutiva que relaciona la polarización eléctrica con el campo eléctrico. En este trabajo se determinaron la magnitud del signo y del índice de refracción y el coeficiente de absorción no lineal de la siguiente sustancia orgánica: azul de metileno, LD de rodamina, polvo vegetal y violeta de genciana cien por cien pura disuelta en alcohol isopropílico, se utilizó un láser Nd: YAG Como fuente de excitación. El grupo de láser se enfocó con una lente de diez centímetros de distancia focal; Mediante el uso de un sistema de desplazamiento se realizó el barrido de veinte centímetros. Los siguientes resultados de las curvas normalizadas de la transmitancia en función de la posición z se obtuvieron aplicando la teoría de Sheik-Bahae: El índice de refracción no lineal del tinte muestra un aumento en la función de su concentración y la capacidad de excitación del láser con negativo Signo no lineal en la mayoría de la muestra.Fontalvo, M.-9a2d58f2-5d10-49aa-99ce-faa71862f7f3-600García, Aday-5588228f-719d-49db-a022-6c04eb3f5846-600Valbuena Duarte, Sonia-b32064c4-1a69-41c3-8792-b0e5a1360261-600Racedo, Fran-f1efa18b-3cb6-43de-88a6-ac5c96b7d8cd-600engJournal of Physics: Conference SeriesAttribution-NonCommercial-ShareAlike 4.0 Internationalhttp://creativecommons.org/licenses/by-nc-sa/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Aromatic compoundsCharacterizationElectric fieldsElectromagnetic field effectsElectromagnetic field theoryLaser excitationLaser theoryNanoscienceNanotechnologyNeodymium lasersNonlinear equationsNonlinear opticsOrganic lasersCompuestos aromáticosCaracterizaciónCampos eléctricosEfectos del campo electromagnético.Teoría del campo electromagnéticoExcitación láserTeoría láserNanocienciaNanotecnologíaLáseres de neodimioEcuaciones no linealesÓptica no linealLáseres orgánicosMeasurement of nonlinear refractive index of organic materials by z-scanMedición del índice de refracción no lineal de materiales orgánicos mediante z-scanArtículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Textinfo:eu-repo/semantics/articlehttp://purl.org/redcol/resource_type/ARTinfo:eu-repo/semantics/acceptedVersionR Boyd 2007 Nonlinear optics 3rd ed (New York: Academic Press) M Sheik-Bahae, A A Said, T Wei, D J Hagan, E W V Stryland 1990 IEEE J Quantum Elect 26 760769 A García, S Valbuena, R sarmiento, F Racedo 2015 Óptica Pura y Aplicada 48-1 55 New Geoffrey 2011 Introduction to nonlinear optics (New York: Cambridge University Press) Piovesan E, De Bonl L, Mendoca C R 2006 Efeitos ópticos lineares e não lineares em derivados de perilenos - workshop da pós-graduação do IFSC (São Carlos: IFSC) Gomez S L, Cuppo F L S and Figueiredo A M 2003 Brazilian Journal of Physics 33-4 813 Linares R y Nicho Diaz M A 2010 Sociedad Mexicana de Ciencias y Tecnología de superficies y Materiales, Superficie y Vacío 23-S 85 Tingchao He Yongguang Cheng, Yabing Du, Yujun Mo 2007 Optics Communications 275-1 240 Qusay Mohammed Ali and P K Palanisamy 2005 Optik International Journal for Light and Electron Optics 116-11 515 A Anwaar AL- Dergazly and Aqueel Fadhel 2010 Advanced research in physics and engineering nanotecnology Proccedings of the 2nd WSEAS International Conference on Nanotechnology (UK: WSEAS Press) pp 144-149PublicationORIGINALMeasurement of nonlinear refractive index of organic materials by z-scan.pdfMeasurement of nonlinear refractive index of organic materials by z-scan.pdfapplication/pdf2259116https://repositorio.cuc.edu.co/bitstreams/5fa00b5d-7746-44c6-a084-1091bb4b7732/download5888ac80a0c99bc422e1b6cb38aeb41fMD51CC-LICENSElicense_rdflicense_rdfapplication/rdf+xml; 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Measurement of nonlinear refractive index of organic materials by z-scan

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