Simultaneous Measurement of Humidity and Temperature with Cytop-reduced Graphene Oxide-overlaid Two-mode Optical Fiber Sensor

Simultaneous Measurement of Humidity and Temperature with Cytop-reduced Graphene Oxide-overlaid Two-mode Optical Fiber Sensor

Highlights [Display omitted] A polymer-overlaid two-mode microfiber knot resonator (TMM-KR) was designed to measure relative humidity (RH) and temperature simultaneously in a living condition. The device is composed of two main optical features: two-mode microfiber (TMM, slow-varying term) and two-m...

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Veröffentlicht in:Sensors and actuators. B, Chemical Chemical, 2019-11, Vol.298, p.126841, Article 126841
Hauptverfasser: Le, Anh Duy Duong, Hwang, Juil, Yusuf, Mohammad, Park, Kang Hyun, Park, Sungkyun, Kim, Jaeyong
Format: Artikel
Sprache:eng
Schlagworte:
Graphene
Humidity
Knot resonator
Knots
Microfibers
Optical fibers
Optical measuring instruments
Optical properties
Polymers
Recovery time
Refractivity
Relative humidity
Resonators
Response time
Sensors
Simultaneous measurement
Tapering
Two-mode microfiber
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container_end_page
container_issue
container_start_page 126841
container_title Sensors and actuators. B, Chemical
container_volume 298
creator Le, Anh Duy Duong
Hwang, Juil
Yusuf, Mohammad
Park, Kang Hyun
Park, Sungkyun
Kim, Jaeyong
description Highlights [Display omitted] A polymer-overlaid two-mode microfiber knot resonator (TMM-KR) was designed to measure relative humidity (RH) and temperature simultaneously in a living condition. The device is composed of two main optical features: two-mode microfiber (TMM, slow-varying term) and two-mode knot resonator (TMKR, fast-varying term). After fabricating a TMM by non-adiabatically tapering a conventional single mode fiber (SMF), we designed C-rGO-overlaid TMM as a polymer-overlaid optical sensor to evaluate the response and recovery times. The effective group refractive index between fundamental and cladding modes, HE11 and HE12, respectively, of the TMM-KR reduced to nearly zero by optimizing the waist diameter of the optical microfiber, and the sensitivities of the proposed sensor remarkably enhanced to 0.603 nm/%, and -0.79 nm/oC, for RH and temperature, respectively. Our calculated and experimental results demonstrated that the proposed micro-structure of the C-rGO-overlaid TMM-KR will provide optical properties that can be applied for practical use of environment sensing.
doi_str_mv 10.1016/j.snb.2019.126841
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The device is composed of two main optical features: two-mode microfiber (TMM, slow-varying term) and two-mode knot resonator (TMKR, fast-varying term). After fabricating a TMM by non-adiabatically tapering a conventional single mode fiber (SMF), we designed C-rGO-overlaid TMM as a polymer-overlaid optical sensor to evaluate the response and recovery times. The effective group refractive index between fundamental and cladding modes, HE11 and HE12, respectively, of the TMM-KR reduced to nearly zero by optimizing the waist diameter of the optical microfiber, and the sensitivities of the proposed sensor remarkably enhanced to 0.603 nm/%, and -0.79 nm/oC, for RH and temperature, respectively. 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B, Chemical</title><description>Highlights [Display omitted] A polymer-overlaid two-mode microfiber knot resonator (TMM-KR) was designed to measure relative humidity (RH) and temperature simultaneously in a living condition. The device is composed of two main optical features: two-mode microfiber (TMM, slow-varying term) and two-mode knot resonator (TMKR, fast-varying term). After fabricating a TMM by non-adiabatically tapering a conventional single mode fiber (SMF), we designed C-rGO-overlaid TMM as a polymer-overlaid optical sensor to evaluate the response and recovery times. The effective group refractive index between fundamental and cladding modes, HE11 and HE12, respectively, of the TMM-KR reduced to nearly zero by optimizing the waist diameter of the optical microfiber, and the sensitivities of the proposed sensor remarkably enhanced to 0.603 nm/%, and -0.79 nm/oC, for RH and temperature, respectively. 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B, Chemical</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Le, Anh Duy Duong</au><au>Hwang, Juil</au><au>Yusuf, Mohammad</au><au>Park, Kang Hyun</au><au>Park, Sungkyun</au><au>Kim, Jaeyong</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Simultaneous Measurement of Humidity and Temperature with Cytop-reduced Graphene Oxide-overlaid Two-mode Optical Fiber Sensor</atitle><jtitle>Sensors and actuators. B, Chemical</jtitle><date>2019-11-01</date><risdate>2019</risdate><volume>298</volume><spage>126841</spage><pages>126841-</pages><artnum>126841</artnum><issn>0925-4005</issn><eissn>1873-3077</eissn><abstract>Highlights [Display omitted] A polymer-overlaid two-mode microfiber knot resonator (TMM-KR) was designed to measure relative humidity (RH) and temperature simultaneously in a living condition. The device is composed of two main optical features: two-mode microfiber (TMM, slow-varying term) and two-mode knot resonator (TMKR, fast-varying term). After fabricating a TMM by non-adiabatically tapering a conventional single mode fiber (SMF), we designed C-rGO-overlaid TMM as a polymer-overlaid optical sensor to evaluate the response and recovery times. The effective group refractive index between fundamental and cladding modes, HE11 and HE12, respectively, of the TMM-KR reduced to nearly zero by optimizing the waist diameter of the optical microfiber, and the sensitivities of the proposed sensor remarkably enhanced to 0.603 nm/%, and -0.79 nm/oC, for RH and temperature, respectively. 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subjects Graphene
Humidity
Knot resonator
Knots
Microfibers
Optical fibers
Optical measuring instruments
Optical properties
Polymers
Recovery time
Refractivity
Relative humidity
Resonators
Response time
Sensors
Simultaneous measurement
Tapering
Two-mode microfiber
title Simultaneous Measurement of Humidity and Temperature with Cytop-reduced Graphene Oxide-overlaid Two-mode Optical Fiber Sensor
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