Proposal for Dyakonov surface wave excitation using fiber optics

Ilustraciones

Autores:
Garces Gomez, Jorge David
Tipo de recurso:
Fecha de publicación:
2024
Institución:
Universidad Nacional de Colombia
Repositorio:
Universidad Nacional de Colombia
Idioma:
eng
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Acceso en línea:
https://repositorio.unal.edu.co/handle/unal/86948
https://repositorio.unal.edu.co/
Palabra clave:
530 - Física
Ondas de superficie
Fibra óptica
Indice de refracción
Guías de ondas ópticas
Surface wave
Refractive index
Isotropy
Anisotropy
Angular existence domain
Dyakonov wave
Onda superficial
Índice de refracción
Núcleo
Isotropía
Anisotropía
Dominio de existencia angular
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Atribución-NoComercial-SinDerivadas 4.0 Internacional
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oai_identifier_str oai:repositorio.unal.edu.co:unal/86948
network_acronym_str UNACIONAL2
network_name_str Universidad Nacional de Colombia
repository_id_str
dc.title.eng.fl_str_mv Proposal for Dyakonov surface wave excitation using fiber optics
dc.title.translated.spa.fl_str_mv Propuesta para la excitación de ondas de superficie de Dyakonov usando fibra óptica
title Proposal for Dyakonov surface wave excitation using fiber optics
spellingShingle Proposal for Dyakonov surface wave excitation using fiber optics
530 - Física
Ondas de superficie
Fibra óptica
Indice de refracción
Guías de ondas ópticas
Surface wave
Refractive index
Isotropy
Anisotropy
Angular existence domain
Dyakonov wave
Onda superficial
Índice de refracción
Núcleo
Isotropía
Anisotropía
Dominio de existencia angular
title_short Proposal for Dyakonov surface wave excitation using fiber optics
title_full Proposal for Dyakonov surface wave excitation using fiber optics
title_fullStr Proposal for Dyakonov surface wave excitation using fiber optics
title_full_unstemmed Proposal for Dyakonov surface wave excitation using fiber optics
title_sort Proposal for Dyakonov surface wave excitation using fiber optics
dc.creator.fl_str_mv Garces Gomez, Jorge David
dc.contributor.advisor.none.fl_str_mv Torres Trujillo, Pedro Ignacio
dc.contributor.author.none.fl_str_mv Garces Gomez, Jorge David
dc.contributor.researchgroup.spa.fl_str_mv Fotónica y Opto-Electrónica
dc.subject.ddc.spa.fl_str_mv 530 - Física
topic 530 - Física
Ondas de superficie
Fibra óptica
Indice de refracción
Guías de ondas ópticas
Surface wave
Refractive index
Isotropy
Anisotropy
Angular existence domain
Dyakonov wave
Onda superficial
Índice de refracción
Núcleo
Isotropía
Anisotropía
Dominio de existencia angular
dc.subject.lemb.none.fl_str_mv Ondas de superficie
Fibra óptica
Indice de refracción
Guías de ondas ópticas
dc.subject.proposal.eng.fl_str_mv Surface wave
Refractive index
Isotropy
Anisotropy
Angular existence domain
Dyakonov wave
dc.subject.proposal.spa.fl_str_mv Onda superficial
Índice de refracción
Núcleo
Isotropía
Anisotropía
Dominio de existencia angular
description Ilustraciones
publishDate 2024
dc.date.accessioned.none.fl_str_mv 2024-10-15T16:12:59Z
dc.date.available.none.fl_str_mv 2024-10-15T16:12:59Z
dc.date.issued.none.fl_str_mv 2024
dc.type.spa.fl_str_mv Trabajo de grado - Maestría
dc.type.driver.spa.fl_str_mv info:eu-repo/semantics/masterThesis
dc.type.version.spa.fl_str_mv info:eu-repo/semantics/acceptedVersion
dc.type.content.spa.fl_str_mv Text
dc.type.redcol.spa.fl_str_mv http://purl.org/redcol/resource_type/TM
status_str acceptedVersion
dc.identifier.uri.none.fl_str_mv https://repositorio.unal.edu.co/handle/unal/86948
dc.identifier.instname.spa.fl_str_mv Universidad Nacional de Colombia
dc.identifier.reponame.spa.fl_str_mv Repositorio Institucional Universidad Nacional de Colombia
dc.identifier.repourl.spa.fl_str_mv https://repositorio.unal.edu.co/
url https://repositorio.unal.edu.co/handle/unal/86948
https://repositorio.unal.edu.co/
identifier_str_mv Universidad Nacional de Colombia
Repositorio Institucional Universidad Nacional de Colombia
dc.language.iso.spa.fl_str_mv eng
language eng
dc.relation.indexed.spa.fl_str_mv LaReferencia
dc.relation.references.spa.fl_str_mv Osamu Takayama, Lucian-Cornel Crasovan, Steffen Kjær Johansen, Dumitru Mihalache, David Artigas, Lluis Torner (2008) Dyakonov Surface Waves: A Review, Electromagnetics, 28:3, 126-145, DOI: 10.1080/02726340801921403
M. I. Dyakonov (1988) “New type of electromagnetic wave propagating at an interface,” Sov. Phys. JETP 67, 714–716
Kartiek Agarwal, John A. Polo, Akhlesh Lakhtakia (2009) Dyakonov-like surface waves in anisotropic cylindrical waveguides, University, 197101 St. Petersburg, Russia
K. Yu. Golenitskii1, A. A. Bogdanov1 (2022) Theory of Dyakonov–Tamm waves at the planar interface of a sculptured nematic thin film and anisotropic dielectric material, Department of Physics and Technology, Edinboro University of Pennsylvania, Edinboro, PA 16444, USA
Evgeny V. Anikin, Sergey A. Dyakov,y and Nikolay A (2021) Dyakonov surface waves in dielectric crystals with negative anisotropy, Gippius Skolkovo Institute of Science and Technology, 143025 Moscow Region, Russia
John Polo, Tom Mackay, Akhlesh Lakhtakia (2013) Electromagnetic SurfaceWaves. A Modern Perspective
T. Turbadar (1959) Complete absorption of light by thin metal films. Proc. Phys. Soc, 73(1):40–44
Y. Fang and M. Sun (2015) Light: Science & Applications 4, e294
P. Yeh, A. Yariv, and A. Y. Cho, Appl. Phys. Lett. 32, 104 (1978)
Esteban Gonzalez Valencia, Ignacio Del Villar, Pedro Torres, Novel Bloch wave excitation platform based on few layer photonic crystal deposited on D-shaped optical fiber, scientific reports
Esteban Gonzalez Valencia, Ignacio del Villar, Pedro Torres. Bloch waves at the surface of a single-layer coating D-shaped photonic crystal fiber. Optics Letters. Vol. 45, No. 9, 2020
Esteban Gonzalez Valencia, Rodrigo Acuna Herrera, Pedro Torres. Bloch surface wave resonance in photonic crystal fibers: towards ultra-wide range refractive index sensors, OPTICS EXPRESS, Vol. 27, No. 6, 2019
Lu, Jianqing & Chen, Zhenyi & Pang, Fufei &Wang, Tingyun. (2008). Theoretical Analysis of Fiber-Optic EvanescentWave Sensors. Proceedings of 2008 China- Japan Joint Microwave Conference, CJMW 2008. 10.1109/CJMW.2008.4772500
Takayama, Osamu & Crasovan, Lucian & Artigas, David & Torner, Lluis (2009) Observation of Dyakonov Surface Waves. Physical review letters. 102. 043903. 10.1103/PhysRevLett.102.043903
D. B. Walker, E. N. Glytsis, and T. K. Gaylord (1998) “Surface mode at isotropic– uniaxial and isotropic biaxial interfaces,” J. Opt. Soc. Am. A, vol. 15, no. 1, p. 248
Min Cheng, Ping Fu, Shengyu Chen (2021) Tunable Dyakonov surface waves in graphene-hBN hyperstructure
A.Lakhtakia and J.A.P olo Jr.,J . Eur. Opt. Soc.–Rapid Publ. 2, 07021 (2007)
D. P. Pulsifer, M. Faryad, and A. Lakhtakia, Phys. Rev. Lett. 111, 243902 (2013)
Farhat Abbas, Akhlesh Lakhtakia, Qaisar A. Naqvi, and Muhammad Faryad (2015) An optical-sensing modality that exploits Dyakonov–Tamm waves. Photon. Res. 3, 5-8
Takayama O, Crasovan L-C, Johansen S K, Mihalache D, Artigas D and Torner Ll (2008) Electromagnetics 28, 126
Lakhtakia A and Polo J A Jr (2007) J. Eur. Opt. Soc.–Rapid Pub. 2 07021
M. N. Polyanskiy. Refractiveindex.info database of optical constants. Sci. Data 11, 94 (2024) https://doi.org/10.1038/s41597-023-02898-2
doi: 0.1103/PhysRevLett.94.013901
doi: 10.7567/APEX.8.072601
doi: 10.1364/OL.30.003075
doi: 10.1103/PhysRevB.74.155120
doi: 10.1364/OL.37.004311
I. Abdulhalim, M. Zourob, A. Lakhtakia, Surface plasmon resonance for biosensing: a mini-review, Electromagnetics 28 (2008) 214–242, http://dx.doi.org/10.1080/02726340 801921650
J.S. Sekhon, S.S. Verma (2011) Plasmonics: the future wave of communication, Curr. Sci. India 101, 484–488
H.A. Atwater, A. Polman (2010) Plasmonics for improved photovoltaic devices, Nature Mater. 9, 205–213, http://dx.doi.org/10.1038/nmat2629
W.Love, L.Button, R.Slovacek (1991) Optical characteristics of fiber optic evanescent wave sensors. In: Wise,Wingard (Eds.), Biosensors with Fiberoptics. Humana Press, Totowa, NJ, p. 139
George P. Anderson, Chris Rowe Taitt (2008) Chapter 2 - Evanescent Wave Fiber Optic Biosensor, Editor(s): Frances S. Ligler, Chris Rowe Taitt, Optical Biosensors Second Edition), Elsevier, Pages 83-138
Roberto Lo Savio, Sara Piselli, Cinzia Bertelli, Massimo Pizzato, Adolfo Carloni (2022) Viral particles imaging through evanescent wave scattering in a total internal reflection laser microscope, Sensing and Bio-Sensing Research, Volume 37
Zhenzhe Wei, Xiao Cheng, Jinming Li, Guo Wang, Junzhu Mao, Jiaxing Zhao, Xinhui Lou (2022) Ultrasensitive evanescent wave optical fiber aptasensor for online, continuous, type-specific detection of sulfonamides in environmental water, Analytica Chimica Acta, Volume 1233
N. Zhong, M. Zhao, L. Zhong, Q. Liao, X. Zhu, B. Luo, Y. Li (2016) A highsensitivity fiber-optic evanescent wave sensor with a three-layer structure composed of Canada balsam doped with GeO2, Biosens. Bioelectron. 85 876e882
Leizi Jiao, Nianbing Zhong, Xiande Zhao, Shixiang Ma, Xinglan Fu, Daming Dong, (2020) Recent advances in fiber-optic evanescent wave sensors for monitoring organic and inorganic pollutants in water, TrAC Trends in Analytical Chemistry, Volume 127, 115
Dmitry A. Chermoshentsev, Evgeny V. Anikin, Sergey A. Dyakov, Nikolay A. Gippius (2021) Dyakonov surface waves in dielectric crystals with negative anisotropy
Yariv Amnon (2006) Photonics: optical electronics in modern communications, 6th ed
George P. Anderson, Chris Rowe Taitt, (2008) Optical Biosensors (Second Edition)
UWiller, D.Scheel, I,Kostjucentko (2002) Fiber-optic evanescent-field laser sensor for in-situ gas diagnostics.Spectrochim. Acta, Part A 58,2427-2422
W.Love, L.Button, R.Slovacek (1991) Optical characteristics of fiber optic evanescent wave sensors. In: Wise, Wingard (Eds.), Biosensors with Fiberoptics
A.Messia, A.Greenstein, and A.Katzir (1996) Theory of fiber-optic envanescentwave spectroscopy and sensors, Applied optics Vol.35, No. 13
G.Z.Wang, K.A.Murphy,R.O.Claus (1995) Effect of external index of refraction on multimode fiber couplers. transmission spectral filters, in Proceedings of the Applied Optics 34(36),8289-8293
M. J. Adams, An Introduction to Optical Waveguides, New York, 19812, pp. 228-23
J.P.Golden,G.P.George,P.Anderson (1994) An evanescent wave biosensor. Part2. Fluorescence signal acquisition from tapered fiber optic probes. IEEE Trans. Biomed 41(6),585-591
Boardman, A. D. (Ed.) (1982) Electromagnetic surface modes. Chichester, UK: John Wiley & Sons
Averkiev, N. S., & M. I. D’yakonov (1990) Electromagnetic waves localized at the interface of transparent unisotropic media. Opt. Spectrosc. (USSR) 68:653–655
Artigas, D., & L. Torner (2005) Dyakonov surface waves in photonic metamaterials. Phys. Rev. Lett. 94:013901
Crasovan, L. C., O. Takayama, D. Artigas, S. K. Johansen, D. Mihalache, & L. Torner (2006) Enhanced localization of Dyakonov-like surface waves in lefthanded materials. Phys. Rev. B 74:155120
Polo, Jr., J. A., S. Nelatury, & A. Lakhtakia (2007) Propagation of surface waves at the planar interface of a columnar thin film and an isotropic substrate. J. Nanophoton. 1:013501
Osamu Takayama, Lucian Crasovan, David Artigas, and Lluis Torner (2009) Observation of dyakonov surface waves. Physical Review Letters, 102(4):043903
Drew Patrick Pulsifer, Muhammad Faryad, and Akhlesh Lakhtakia (2013) Observation of the dyakonov–tamm wave. Physical Review Letters, 111(24):243902
Drew Patrick Pulsifer, Muhammad Faryad, and Akhlesh Lakhtakia (2013) Parametric investigation of prism-coupled excitation of dyakonov–tamm waves. Journal of Optical Society of America B, 30(8):2081–2089
Jr. John A. Polo, Tom G. Mackay, and Akhlesh Lakhtakia (2013) Electromagnetic Surface Waves. Elsevier
Andreas Otto (1968) Aeitschrift fur Physik, Vol. 216, Issue 4, pp. 398-410
Zubin Jacob and Evgenii E. Narimanov (2008) Optical hyperspace for plasmons: Dyakonov states in metamaterials, Appl. Phys. Lett. 93, 221109
dc.rights.coar.fl_str_mv http://purl.org/coar/access_right/c_abf2
dc.rights.license.spa.fl_str_mv Atribución-NoComercial-SinDerivadas 4.0 Internacional
dc.rights.uri.spa.fl_str_mv http://creativecommons.org/licenses/by-nc-nd/4.0/
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dc.format.extent.spa.fl_str_mv 101 páginas
dc.format.mimetype.spa.fl_str_mv application/pdf
dc.publisher.spa.fl_str_mv Universidad Nacional de Colombia
dc.publisher.program.spa.fl_str_mv Medellín - Ciencias - Maestría en Ciencias - Física
dc.publisher.faculty.spa.fl_str_mv Facultad de Ciencias
dc.publisher.place.spa.fl_str_mv Medellín, Colombia
dc.publisher.branch.spa.fl_str_mv Universidad Nacional de Colombia - Sede Medellín
institution Universidad Nacional de Colombia
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spelling Atribución-NoComercial-SinDerivadas 4.0 Internacionalhttp://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Torres Trujillo, Pedro Ignacioe15bd4856b7b8afb46d688ce14cfc3eeGarces Gomez, Jorge David5852657169a0aad5e244416991654f65Fotónica y Opto-Electrónica2024-10-15T16:12:59Z2024-10-15T16:12:59Z2024https://repositorio.unal.edu.co/handle/unal/86948Universidad Nacional de ColombiaRepositorio Institucional Universidad Nacional de Colombiahttps://repositorio.unal.edu.co/IlustracionesThe study of the interaction of light with matter has very important connotations in sensing applications, one of them being the surface waves generated for the propagation of light at the interface of two materials. Recent research has uncovered possibilities for detecting surface waves. A successful research on this topic is the surface plasmon polariton method, which is widely used for sensing purposes. Dyakonov surface wave (DSW) is a new possibility to extend sensing possibilities using dielectric materials. DSW is a phenomenon that depends on both the refractive indices of the interface materials and the surrounding medium, changing its propagation properties, or it is not excited when the propagation angle with respect to the optical axis of the anisotropic material is greater than the maximum angle of the angular existence domain. This sensitive behavior of DSWs opens the door to new alternatives to improve the technological application of surface waves in sensing and scientific research. For this reason, a theoretical and numerical study of optical waveguides involving Dyakonov surface waves at the anisotropic-isotropic interface is presented in this M.Sc. Thesis. The study focuses on DSW in planar waveguides and geometrically modified D-shaped optical fibers, covering a large number of possibilities on the excitation of this type of surface waves and how these waves can be implemented to detect small variations in the refractive index of the surrounding medium. (Tomado de la fuente)El estudio de la interacción de la luz con la materia tiene connotaciones muy importantes en las aplicaciones de sensado, siendo una de ellas las ondas superficiales generadas para la propagación de la luz en la interfaz de dos materiales. Investigaciones recientes han descubierto posibilidades para detectar ondas superficiales. Una investigación exitosa sobre este tema es el método del polariton del plasmón superficial, que es ampliamente utilizado con fines de sensado. La onda superficial de Dyakonov (DSW) es una nueva posibilidad para ampliar las posibilidades de sensado utilizando materiales dieléctricos. DSW es un fenómeno que depende tanto de los índices de refracción de los materiales de la interfaz como del medio circundante, cambiando sus propiedades de propagación, o no se excita cuando el ángulo de propagación con respecto al eje óptico del material anisotrópico es mayor que el ángulo máximo del dominio de existencia angular. Este comportamiento sensible de las ondas DSW abre la puerta a nuevas alternativas para mejorar la aplicación tecnológica de las ondas superficiales en la detección y la investigación científica. Por esta razón, un estudio teórico y numérico de guías de ondas ópticas que involucran ondas de superficie de Dyakonov en la interfaz anisotrópica-isotrópica se presenta en esta tesis M.Sc. El estudio se centra en DSW en guías de onda planas y fibras ópticas en forma de D modificadas geométricamente, cubriendo un gran número de posibilidades en la excitación de este tipo de ondas de superficie y cómo estas ondas se pueden implementar para detectar pequeñas variaciones en el índice de refracción del medio circundante.MaestríaMagíster en Ciencias - FísicaPhotonicsFísica.Sede Medellín101 páginasapplication/pdfengUniversidad Nacional de ColombiaMedellín - Ciencias - Maestría en Ciencias - FísicaFacultad de CienciasMedellín, ColombiaUniversidad Nacional de Colombia - Sede Medellín530 - FísicaOndas de superficieFibra ópticaIndice de refracciónGuías de ondas ópticasSurface waveRefractive indexIsotropyAnisotropyAngular existence domainDyakonov waveOnda superficialÍndice de refracciónNúcleoIsotropíaAnisotropíaDominio de existencia angularProposal for Dyakonov surface wave excitation using fiber opticsPropuesta para la excitación de ondas de superficie de Dyakonov usando fibra ópticaTrabajo de grado - Maestríainfo:eu-repo/semantics/masterThesisinfo:eu-repo/semantics/acceptedVersionTexthttp://purl.org/redcol/resource_type/TMLaReferenciaOsamu Takayama, Lucian-Cornel Crasovan, Steffen Kjær Johansen, Dumitru Mihalache, David Artigas, Lluis Torner (2008) Dyakonov Surface Waves: A Review, Electromagnetics, 28:3, 126-145, DOI: 10.1080/02726340801921403M. I. Dyakonov (1988) “New type of electromagnetic wave propagating at an interface,” Sov. Phys. JETP 67, 714–716Kartiek Agarwal, John A. Polo, Akhlesh Lakhtakia (2009) Dyakonov-like surface waves in anisotropic cylindrical waveguides, University, 197101 St. Petersburg, RussiaK. Yu. Golenitskii1, A. A. Bogdanov1 (2022) Theory of Dyakonov–Tamm waves at the planar interface of a sculptured nematic thin film and anisotropic dielectric material, Department of Physics and Technology, Edinboro University of Pennsylvania, Edinboro, PA 16444, USAEvgeny V. Anikin, Sergey A. Dyakov,y and Nikolay A (2021) Dyakonov surface waves in dielectric crystals with negative anisotropy, Gippius Skolkovo Institute of Science and Technology, 143025 Moscow Region, RussiaJohn Polo, Tom Mackay, Akhlesh Lakhtakia (2013) Electromagnetic SurfaceWaves. A Modern PerspectiveT. Turbadar (1959) Complete absorption of light by thin metal films. Proc. Phys. Soc, 73(1):40–44Y. Fang and M. Sun (2015) Light: Science & Applications 4, e294P. Yeh, A. Yariv, and A. Y. Cho, Appl. Phys. Lett. 32, 104 (1978)Esteban Gonzalez Valencia, Ignacio Del Villar, Pedro Torres, Novel Bloch wave excitation platform based on few layer photonic crystal deposited on D-shaped optical fiber, scientific reportsEsteban Gonzalez Valencia, Ignacio del Villar, Pedro Torres. Bloch waves at the surface of a single-layer coating D-shaped photonic crystal fiber. Optics Letters. Vol. 45, No. 9, 2020Esteban Gonzalez Valencia, Rodrigo Acuna Herrera, Pedro Torres. Bloch surface wave resonance in photonic crystal fibers: towards ultra-wide range refractive index sensors, OPTICS EXPRESS, Vol. 27, No. 6, 2019Lu, Jianqing & Chen, Zhenyi & Pang, Fufei &Wang, Tingyun. (2008). Theoretical Analysis of Fiber-Optic EvanescentWave Sensors. Proceedings of 2008 China- Japan Joint Microwave Conference, CJMW 2008. 10.1109/CJMW.2008.4772500Takayama, Osamu & Crasovan, Lucian & Artigas, David & Torner, Lluis (2009) Observation of Dyakonov Surface Waves. Physical review letters. 102. 043903. 10.1103/PhysRevLett.102.043903D. B. Walker, E. N. Glytsis, and T. K. Gaylord (1998) “Surface mode at isotropic– uniaxial and isotropic biaxial interfaces,” J. Opt. Soc. Am. A, vol. 15, no. 1, p. 248Min Cheng, Ping Fu, Shengyu Chen (2021) Tunable Dyakonov surface waves in graphene-hBN hyperstructureA.Lakhtakia and J.A.P olo Jr.,J . Eur. Opt. Soc.–Rapid Publ. 2, 07021 (2007)D. P. Pulsifer, M. Faryad, and A. Lakhtakia, Phys. Rev. Lett. 111, 243902 (2013)Farhat Abbas, Akhlesh Lakhtakia, Qaisar A. Naqvi, and Muhammad Faryad (2015) An optical-sensing modality that exploits Dyakonov–Tamm waves. Photon. Res. 3, 5-8Takayama O, Crasovan L-C, Johansen S K, Mihalache D, Artigas D and Torner Ll (2008) Electromagnetics 28, 126Lakhtakia A and Polo J A Jr (2007) J. Eur. Opt. Soc.–Rapid Pub. 2 07021M. N. Polyanskiy. Refractiveindex.info database of optical constants. Sci. Data 11, 94 (2024) https://doi.org/10.1038/s41597-023-02898-2doi: 0.1103/PhysRevLett.94.013901doi: 10.7567/APEX.8.072601doi: 10.1364/OL.30.003075doi: 10.1103/PhysRevB.74.155120doi: 10.1364/OL.37.004311I. Abdulhalim, M. Zourob, A. Lakhtakia, Surface plasmon resonance for biosensing: a mini-review, Electromagnetics 28 (2008) 214–242, http://dx.doi.org/10.1080/02726340 801921650J.S. Sekhon, S.S. Verma (2011) Plasmonics: the future wave of communication, Curr. Sci. India 101, 484–488H.A. Atwater, A. Polman (2010) Plasmonics for improved photovoltaic devices, Nature Mater. 9, 205–213, http://dx.doi.org/10.1038/nmat2629W.Love, L.Button, R.Slovacek (1991) Optical characteristics of fiber optic evanescent wave sensors. In: Wise,Wingard (Eds.), Biosensors with Fiberoptics. Humana Press, Totowa, NJ, p. 139George P. Anderson, Chris Rowe Taitt (2008) Chapter 2 - Evanescent Wave Fiber Optic Biosensor, Editor(s): Frances S. Ligler, Chris Rowe Taitt, Optical Biosensors Second Edition), Elsevier, Pages 83-138Roberto Lo Savio, Sara Piselli, Cinzia Bertelli, Massimo Pizzato, Adolfo Carloni (2022) Viral particles imaging through evanescent wave scattering in a total internal reflection laser microscope, Sensing and Bio-Sensing Research, Volume 37Zhenzhe Wei, Xiao Cheng, Jinming Li, Guo Wang, Junzhu Mao, Jiaxing Zhao, Xinhui Lou (2022) Ultrasensitive evanescent wave optical fiber aptasensor for online, continuous, type-specific detection of sulfonamides in environmental water, Analytica Chimica Acta, Volume 1233N. Zhong, M. Zhao, L. Zhong, Q. Liao, X. Zhu, B. Luo, Y. Li (2016) A highsensitivity fiber-optic evanescent wave sensor with a three-layer structure composed of Canada balsam doped with GeO2, Biosens. Bioelectron. 85 876e882Leizi Jiao, Nianbing Zhong, Xiande Zhao, Shixiang Ma, Xinglan Fu, Daming Dong, (2020) Recent advances in fiber-optic evanescent wave sensors for monitoring organic and inorganic pollutants in water, TrAC Trends in Analytical Chemistry, Volume 127, 115Dmitry A. Chermoshentsev, Evgeny V. Anikin, Sergey A. Dyakov, Nikolay A. Gippius (2021) Dyakonov surface waves in dielectric crystals with negative anisotropyYariv Amnon (2006) Photonics: optical electronics in modern communications, 6th edGeorge P. Anderson, Chris Rowe Taitt, (2008) Optical Biosensors (Second Edition)UWiller, D.Scheel, I,Kostjucentko (2002) Fiber-optic evanescent-field laser sensor for in-situ gas diagnostics.Spectrochim. Acta, Part A 58,2427-2422W.Love, L.Button, R.Slovacek (1991) Optical characteristics of fiber optic evanescent wave sensors. In: Wise, Wingard (Eds.), Biosensors with FiberopticsA.Messia, A.Greenstein, and A.Katzir (1996) Theory of fiber-optic envanescentwave spectroscopy and sensors, Applied optics Vol.35, No. 13G.Z.Wang, K.A.Murphy,R.O.Claus (1995) Effect of external index of refraction on multimode fiber couplers. transmission spectral filters, in Proceedings of the Applied Optics 34(36),8289-8293M. J. Adams, An Introduction to Optical Waveguides, New York, 19812, pp. 228-23J.P.Golden,G.P.George,P.Anderson (1994) An evanescent wave biosensor. Part2. Fluorescence signal acquisition from tapered fiber optic probes. IEEE Trans. Biomed 41(6),585-591Boardman, A. D. (Ed.) (1982) Electromagnetic surface modes. Chichester, UK: John Wiley & SonsAverkiev, N. S., & M. I. D’yakonov (1990) Electromagnetic waves localized at the interface of transparent unisotropic media. Opt. Spectrosc. (USSR) 68:653–655Artigas, D., & L. Torner (2005) Dyakonov surface waves in photonic metamaterials. Phys. Rev. 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Lett. 93, 221109InvestigadoresLICENSElicense.txtlicense.txttext/plain; charset=utf-85879https://repositorio.unal.edu.co/bitstream/unal/86948/1/license.txteb34b1cf90b7e1103fc9dfd26be24b4aMD51ORIGINAL1036602328.2024.pdf1036602328.2024.pdfTesis de maestría en Ciencias Físicaapplication/pdf14544208https://repositorio.unal.edu.co/bitstream/unal/86948/2/1036602328.2024.pdf1e83a48617fc874bc40f73e9d7a6cdfbMD52THUMBNAIL1036602328.2024.pdf.jpg1036602328.2024.pdf.jpgGenerated Thumbnailimage/jpeg3161https://repositorio.unal.edu.co/bitstream/unal/86948/3/1036602328.2024.pdf.jpg13caed1c07e15fc57d5940f02fb79edbMD53unal/86948oai:repositorio.unal.edu.co:unal/869482024-10-16 00:16:14.703Repositorio Institucional Universidad Nacional de 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