{"title":"Highly Sensitive Ultrasonic Sensor Using Anti-Resonant Reflection Optical Waveguide Mechanism in a Hollow-Core Fiber","authors":"Zhihua Shao;Ziyu Zhang;Ruiming Liang;Xueguang Qiao","doi":"10.1109/JSTQE.2024.3435007","DOIUrl":null,"url":null,"abstract":"A compact fiber-optic ultrasonic sensor based on the anti-resonant reflecting optical waveguide (ARROW) in hollow core fiber is proposed and demonstrated experimentally. The proposed sensor consists of a section of hollow core fiber sandwiched by two single mode fibers. The hollow core fibers with different inner diameters are utilized to optimize the cladding thickness for detection. Moreover, the hollow core fiber's outer surface is coated with polymer materials that possess varying Young's modulus and refractive index. A sensitivity term, determined by the spectral slope and the material properties of ARROW, is proposed to evaluate the ultrasonic response of pre- and post-coating sensors. The results indicate that a thicker fiber cladding contributes to a higher sensitivity, and the polymer coatings also significantly improve the sensor response. The final sensor exhibits a −10 dB bandwidth of about 5.4 MHz and a temperature sensitivity of 220 pm/°C. By incorporating a waterproof aluminum layer, the acoustic pressure sensitivity is assessed, demonstrating its superiority compared to that of a fiber grating sensor. The proposed sensor introduces a novel high-performance ultrasonic probing approach relative to the conventional interference or grating methods.","PeriodicalId":13094,"journal":{"name":"IEEE Journal of Selected Topics in Quantum Electronics","volume":"30 6: Advances and Applications of Hollow-Core Fibers","pages":"1-7"},"PeriodicalIF":4.3000,"publicationDate":"2024-07-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"IEEE Journal of Selected Topics in Quantum Electronics","FirstCategoryId":"5","ListUrlMain":"https://ieeexplore.ieee.org/document/10613403/","RegionNum":2,"RegionCategory":"工程技术","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"ENGINEERING, ELECTRICAL & ELECTRONIC","Score":null,"Total":0}
引用次数: 0
Abstract
A compact fiber-optic ultrasonic sensor based on the anti-resonant reflecting optical waveguide (ARROW) in hollow core fiber is proposed and demonstrated experimentally. The proposed sensor consists of a section of hollow core fiber sandwiched by two single mode fibers. The hollow core fibers with different inner diameters are utilized to optimize the cladding thickness for detection. Moreover, the hollow core fiber's outer surface is coated with polymer materials that possess varying Young's modulus and refractive index. A sensitivity term, determined by the spectral slope and the material properties of ARROW, is proposed to evaluate the ultrasonic response of pre- and post-coating sensors. The results indicate that a thicker fiber cladding contributes to a higher sensitivity, and the polymer coatings also significantly improve the sensor response. The final sensor exhibits a −10 dB bandwidth of about 5.4 MHz and a temperature sensitivity of 220 pm/°C. By incorporating a waterproof aluminum layer, the acoustic pressure sensitivity is assessed, demonstrating its superiority compared to that of a fiber grating sensor. The proposed sensor introduces a novel high-performance ultrasonic probing approach relative to the conventional interference or grating methods.
期刊介绍:
Papers published in the IEEE Journal of Selected Topics in Quantum Electronics fall within the broad field of science and technology of quantum electronics of a device, subsystem, or system-oriented nature. Each issue is devoted to a specific topic within this broad spectrum. Announcements of the topical areas planned for future issues, along with deadlines for receipt of manuscripts, are published in this Journal and in the IEEE Journal of Quantum Electronics. Generally, the scope of manuscripts appropriate to this Journal is the same as that for the IEEE Journal of Quantum Electronics. Manuscripts are published that report original theoretical and/or experimental research results that advance the scientific and technological base of quantum electronics devices, systems, or applications. The Journal is dedicated toward publishing research results that advance the state of the art or add to the understanding of the generation, amplification, modulation, detection, waveguiding, or propagation characteristics of coherent electromagnetic radiation having sub-millimeter and shorter wavelengths. In order to be suitable for publication in this Journal, the content of manuscripts concerned with subject-related research must have a potential impact on advancing the technological base of quantum electronic devices, systems, and/or applications. Potential authors of subject-related research have the responsibility of pointing out this potential impact. System-oriented manuscripts must be concerned with systems that perform a function previously unavailable or that outperform previously established systems that did not use quantum electronic components or concepts. Tutorial and review papers are by invitation only.
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