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Modelling and simulation of a fiber optic sensor based on the evanescent wave
The development and progress in fiber optic sensors (SFO) is due to the unique advantages they have over solid-state sensors, their main advantages are: immunity to electromagnetic interference, high sensitivity and possibility of distributed sensing, so they have found applications in a variety of...
| Autores principales: | , , , |
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| Formato: | Online Artículo |
| Lenguaje: | spa |
| Publicado: |
Universidad Veracruzana
2023
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| Materias: | |
| Acceso en línea: | https://is.uv.mx/index.php/IS/article/view/2771 https://dx.doi.org/10.25009/is.v0i15.2771 |
| _version_ | 1780756965135220736 |
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| author | López Bermúdez , Alberto Daniel Argüelles Lucho, Primavera Zamora Peredo, Luis López Huerta, Francisco |
| author_facet | López Bermúdez , Alberto Daniel Argüelles Lucho, Primavera Zamora Peredo, Luis López Huerta, Francisco |
| author_sort | López Bermúdez , Alberto Daniel |
| collection | Interconectando Saberes |
| description | The development and progress in fiber optic sensors (SFO) is due to the unique advantages they have over solid-state sensors, their main advantages are: immunity to electromagnetic interference, high sensitivity and possibility of distributed sensing, so they have found applications in a variety of fields because most of the physical and chemical variables can be monitored with SFO. One of the main detection mechanisms is the absorption of evanescent waves, so it is important to know the parameters that determine the behavior of this in SFOs. In this work we present the mathematical modeling and simulation to determine the parameters such as evanescent wave absorption and penetration depth. According to the numerical results, an evanescent wave absorption of 0.2x10-3 ua and a penetration depth of 2 µm were obtained |
| format | Online Article |
| id | oai_is-article-2771 |
| institution | Universidad Veracruzana |
| language | spa |
| publishDate | 2023 |
| publisher | Universidad Veracruzana |
| record_format | ojs |
| spelling | oai_is-article-27712023-03-23T16:23:24Z Modelling and simulation of a fiber optic sensor based on the evanescent wave Modelado y simulación de un sensor de fibra óptica basado en la onda evanescente López Bermúdez , Alberto Daniel Argüelles Lucho, Primavera Zamora Peredo, Luis López Huerta, Francisco Absorción Ecuaciones de Maxwell Onda evanescente Sensores de fibra óptica Absoption Evanescent wave Fiber optic sensor Maxwell equations The development and progress in fiber optic sensors (SFO) is due to the unique advantages they have over solid-state sensors, their main advantages are: immunity to electromagnetic interference, high sensitivity and possibility of distributed sensing, so they have found applications in a variety of fields because most of the physical and chemical variables can be monitored with SFO. One of the main detection mechanisms is the absorption of evanescent waves, so it is important to know the parameters that determine the behavior of this in SFOs. In this work we present the mathematical modeling and simulation to determine the parameters such as evanescent wave absorption and penetration depth. According to the numerical results, an evanescent wave absorption of 0.2x10-3 ua and a penetration depth of 2 µm were obtained El desarrollo y avance en los sensores de fibra óptica (SFO) se debe a las ventajas únicas que poseen sobre los sensores basados estado sólido, sus principales ventajas son: inmunidad a las interferencias electromagnéticas, alta sensibilidad y posibilidad de sensado distribuido, por lo cual han encontrado aplicaciones en una gran variedad de campos debido a que la mayoría de las variables físicas y químicas pueden ser monitoreadas con los SFO. Uno de los principales mecanismos de detección es la absorción de ondas evanescentes, por lo que es importante conocer los parámetros que determinan el comportamiento de esta en los SFO. En este trabajo se describe el modelado matemático y simulación para determinar los parámetros como la absorción de la onda evanescente y la profundidad de penetración. De acuerdo con los resultados numéricos se obtuvo una absorción de la onda evanescente de 0.2x10-3 ua, y profundidad de penetración de 2 µm. Universidad Veracruzana 2023-03-23 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion application/pdf https://is.uv.mx/index.php/IS/article/view/2771 10.25009/is.v0i15.2771 Interconectando Saberes; Núm. 15 (8): Interconectando Saberes, Número 15; 1-8 Interconectando Saberes; No. 15 (8): Interconectando Saberes, Issue 15; 1-8 2448-8704 spa https://is.uv.mx/index.php/IS/article/view/2771/4645 Derechos de autor 2023 Alberto Daniel López Bermúdez , Primavera Argüelles Lucho, Luis Zamora Peredo, Francisco López Huerta https://creativecommons.org/licenses/by-nc-nd/4.0 |
| spellingShingle | Absorción Ecuaciones de Maxwell Onda evanescente Sensores de fibra óptica Absoption Evanescent wave Fiber optic sensor Maxwell equations López Bermúdez , Alberto Daniel Argüelles Lucho, Primavera Zamora Peredo, Luis López Huerta, Francisco Modelling and simulation of a fiber optic sensor based on the evanescent wave |
| title | Modelling and simulation of a fiber optic sensor based on the evanescent wave |
| title_alt | Modelado y simulación de un sensor de fibra óptica basado en la onda evanescente |
| title_full | Modelling and simulation of a fiber optic sensor based on the evanescent wave |
| title_fullStr | Modelling and simulation of a fiber optic sensor based on the evanescent wave |
| title_full_unstemmed | Modelling and simulation of a fiber optic sensor based on the evanescent wave |
| title_short | Modelling and simulation of a fiber optic sensor based on the evanescent wave |
| title_sort | modelling and simulation of a fiber optic sensor based on the evanescent wave |
| topic | Absorción Ecuaciones de Maxwell Onda evanescente Sensores de fibra óptica Absoption Evanescent wave Fiber optic sensor Maxwell equations |
| topic_facet | Absorción Ecuaciones de Maxwell Onda evanescente Sensores de fibra óptica Absoption Evanescent wave Fiber optic sensor Maxwell equations |
| url | https://is.uv.mx/index.php/IS/article/view/2771 https://dx.doi.org/10.25009/is.v0i15.2771 |
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