Monitoring the Growth of a Microbubble Generated Photothermally onto an Optical Fiber by Means Fabry-Perot Interferometry

In the present paper, we show the experimental measurement of the growth of a microbubble created on the tip of a single mode optical fiber, in which zinc nanoparticles were photodeposited on its core by using a single laser source to carry out both the generation of the microbubble by photothermal...

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Published in:	Sensors (Basel, Switzerland) Vol. 21; no. 2; p. 628
Main Authors:	Ortega-Mendoza, J Gabriel, Zaca-Morán, Placido, Padilla-Martínez, J Pablo, Muñoz-Pérez, Josué E, Cruz, José Luis, Andrés, Miguel V
Format:	Journal Article
Language:	English
Published:	Switzerland MDPI AG 18-01-2021 MDPI
Subjects:	Cameras cavity CCD cameras Communication Fabry-Perot interferometers Fabry–Perot Interference fringes Interferometry Lasers Light microbubble Monitoring Nanoparticles optical fiber Optical fibers Semiconductor lasers Sensors Velocity Vibration meters vibrometer United States > US optical fiber microbubble Fabry–Perot vibrometer cavity
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Abstract	In the present paper, we show the experimental measurement of the growth of a microbubble created on the tip of a single mode optical fiber, in which zinc nanoparticles were photodeposited on its core by using a single laser source to carry out both the generation of the microbubble by photothermal effect and the monitoring of the microbubble diameter. The photodeposition technique, as well as the formation of the microbubble, was carried out by using a single-mode pigtailed laser diode with emission at a wavelength of 658 nm. The microbubble's growth was analyzed in the time domain by the analysis of the Fabry-Perot cavity, whose diameter was calculated with the number of interference fringes visualized in an oscilloscope. The results obtained with this technique were compared with images obtained from a CCD camera, in order to verify the diameter of the microbubble. Therefore, by counting the interference fringes, it was possible to quantify the temporal evolution of the microbubble. As a practical demonstration, we proposed a vibrometer sensor using microbubbles with sizes of 83 and 175 µm as a Fabry-Perot cavity; through the time period of a full oscillation cycle of an interferogram observed in the oscilloscope, it was possible to know the frequency vibration (500 and 1500 Hz) for a cuvette where the microbubble was created.
AbstractList	In the present paper, we show the experimental measurement of the growth of a microbubble created on the tip of a single mode optical fiber, in which zinc nanoparticles were photodeposited on its core by using a single laser source to carry out both the generation of the microbubble by photothermal effect and the monitoring of the microbubble diameter. The photodeposition technique, as well as the formation of the microbubble, was carried out by using a single-mode pigtailed laser diode with emission at a wavelength of 658 nm. The microbubble's growth was analyzed in the time domain by the analysis of the Fabry-Perot cavity, whose diameter was calculated with the number of interference fringes visualized in an oscilloscope. The results obtained with this technique were compared with images obtained from a CCD camera, in order to verify the diameter of the microbubble. Therefore, by counting the interference fringes, it was possible to quantify the temporal evolution of the microbubble. As a practical demonstration, we proposed a vibrometer sensor using microbubbles with sizes of 83 and 175 µm as a Fabry-Perot cavity; through the time period of a full oscillation cycle of an interferogram observed in the oscilloscope, it was possible to know the frequency vibration (500 and 1500 Hz) for a cuvette where the microbubble was created.
Author	Andrés, Miguel V Padilla-Martínez, J Pablo Zaca-Morán, Placido Ortega-Mendoza, J Gabriel Muñoz-Pérez, Josué E Cruz, José Luis
AuthorAffiliation	1 División de Posgrado, Universidad Politécnica de Tulancingo, Tulancingo de Bravo, Hidalgo C.P. 43629, Mexico; josue.munos@upt.edu.mx 2 Instituto de Ciencias, Benemérita Universidad Autónoma de Puebla, Ecocampus Valsequillo, Puebla C.P. 72960, Mexico; placido.zaca@correo.buap.mx (P.Z.-M.); juan.padilla@correo.buap.mx (J.P.P.-M.) 3 Departamento de Física Aplicada y Electromagnetismo, Universidad de Valencia, Dr. Moliner 50, 46100 Burjassot, Spain; jose.l.cruz@uv.es (J.L.C.); miguel.andres@uv.es (M.V.A.)
AuthorAffiliation_xml	– name: 2 Instituto de Ciencias, Benemérita Universidad Autónoma de Puebla, Ecocampus Valsequillo, Puebla C.P. 72960, Mexico; placido.zaca@correo.buap.mx (P.Z.-M.); juan.padilla@correo.buap.mx (J.P.P.-M.) – name: 1 División de Posgrado, Universidad Politécnica de Tulancingo, Tulancingo de Bravo, Hidalgo C.P. 43629, Mexico; josue.munos@upt.edu.mx – name: 3 Departamento de Física Aplicada y Electromagnetismo, Universidad de Valencia, Dr. Moliner 50, 46100 Burjassot, Spain; jose.l.cruz@uv.es (J.L.C.); miguel.andres@uv.es (M.V.A.)
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Snippet	In the present paper, we show the experimental measurement of the growth of a microbubble created on the tip of a single mode optical fiber, in which zinc...
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SubjectTerms	Cameras cavity CCD cameras Communication Fabry-Perot interferometers Fabry–Perot Interference fringes Interferometry Lasers Light microbubble Monitoring Nanoparticles optical fiber Optical fibers Semiconductor lasers Sensors Velocity Vibration meters vibrometer
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Title	Monitoring the Growth of a Microbubble Generated Photothermally onto an Optical Fiber by Means Fabry-Perot Interferometry
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