Photonic bandgap fiber for a sensing device

Joanna Pawłat, Tadashi Sugiyama, Takahiro Matsuo, Toshitsugu Ueda

    Research output: Contribution to journalArticle

    6 Citations (Scopus)

    Abstract

    A high-sensitivity, compact set-up, which bases on a photonic bandgap fiber (PBG) and enables the precise measurement of low concentration of gas was designed. Besides high sensitivity, the priority was put on a low cost, portability and simplicity. Proposed technique allows reducing gas sample volume to 0.01 cc. The micro-capillary gas flow inside photonic crystal fiber was estimated. Darcy - Weisbach equation for non-compressible flow and quasi - Panhandle equation for compressible gas flow were used for the calculation of gas flow rate and gas velocity. During the experimental work several types of PBG fibers of various parameters were specially designed, produced and used. The core diameters ranged from 10.9 um to 700 μm.

    Original languageEnglish
    JournalIEEJ Transactions on Sensors and Micromachines
    Volume127
    Issue number3
    Publication statusPublished - 2007

    Fingerprint

    Photonic bandgap fibers
    Flow of gases
    Gases
    Photonic crystal fibers
    Flow rate
    Fibers
    Costs

    Keywords

    • Low gas concentration sensing
    • Microcapillary gas flow
    • Photonic crystal fiber

    ASJC Scopus subject areas

    • Electrical and Electronic Engineering
    • Mechanical Engineering

    Cite this

    Pawłat, J., Sugiyama, T., Matsuo, T., & Ueda, T. (2007). Photonic bandgap fiber for a sensing device. IEEJ Transactions on Sensors and Micromachines, 127(3).

    Photonic bandgap fiber for a sensing device. / Pawłat, Joanna; Sugiyama, Tadashi; Matsuo, Takahiro; Ueda, Toshitsugu.

    In: IEEJ Transactions on Sensors and Micromachines, Vol. 127, No. 3, 2007.

    Research output: Contribution to journalArticle

    Pawłat, J, Sugiyama, T, Matsuo, T & Ueda, T 2007, 'Photonic bandgap fiber for a sensing device', IEEJ Transactions on Sensors and Micromachines, vol. 127, no. 3.
    Pawłat, Joanna ; Sugiyama, Tadashi ; Matsuo, Takahiro ; Ueda, Toshitsugu. / Photonic bandgap fiber for a sensing device. In: IEEJ Transactions on Sensors and Micromachines. 2007 ; Vol. 127, No. 3.
    @article{e062e641dc2a413999b8f9a5a661aebf,
    title = "Photonic bandgap fiber for a sensing device",
    abstract = "A high-sensitivity, compact set-up, which bases on a photonic bandgap fiber (PBG) and enables the precise measurement of low concentration of gas was designed. Besides high sensitivity, the priority was put on a low cost, portability and simplicity. Proposed technique allows reducing gas sample volume to 0.01 cc. The micro-capillary gas flow inside photonic crystal fiber was estimated. Darcy - Weisbach equation for non-compressible flow and quasi - Panhandle equation for compressible gas flow were used for the calculation of gas flow rate and gas velocity. During the experimental work several types of PBG fibers of various parameters were specially designed, produced and used. The core diameters ranged from 10.9 um to 700 μm.",
    keywords = "Low gas concentration sensing, Microcapillary gas flow, Photonic crystal fiber",
    author = "Joanna Pawłat and Tadashi Sugiyama and Takahiro Matsuo and Toshitsugu Ueda",
    year = "2007",
    language = "English",
    volume = "127",
    journal = "IEEJ Transactions on Sensors and Micromachines",
    issn = "1341-8939",
    publisher = "The Institute of Electrical Engineers of Japan",
    number = "3",

    }

    TY - JOUR

    T1 - Photonic bandgap fiber for a sensing device

    AU - Pawłat, Joanna

    AU - Sugiyama, Tadashi

    AU - Matsuo, Takahiro

    AU - Ueda, Toshitsugu

    PY - 2007

    Y1 - 2007

    N2 - A high-sensitivity, compact set-up, which bases on a photonic bandgap fiber (PBG) and enables the precise measurement of low concentration of gas was designed. Besides high sensitivity, the priority was put on a low cost, portability and simplicity. Proposed technique allows reducing gas sample volume to 0.01 cc. The micro-capillary gas flow inside photonic crystal fiber was estimated. Darcy - Weisbach equation for non-compressible flow and quasi - Panhandle equation for compressible gas flow were used for the calculation of gas flow rate and gas velocity. During the experimental work several types of PBG fibers of various parameters were specially designed, produced and used. The core diameters ranged from 10.9 um to 700 μm.

    AB - A high-sensitivity, compact set-up, which bases on a photonic bandgap fiber (PBG) and enables the precise measurement of low concentration of gas was designed. Besides high sensitivity, the priority was put on a low cost, portability and simplicity. Proposed technique allows reducing gas sample volume to 0.01 cc. The micro-capillary gas flow inside photonic crystal fiber was estimated. Darcy - Weisbach equation for non-compressible flow and quasi - Panhandle equation for compressible gas flow were used for the calculation of gas flow rate and gas velocity. During the experimental work several types of PBG fibers of various parameters were specially designed, produced and used. The core diameters ranged from 10.9 um to 700 μm.

    KW - Low gas concentration sensing

    KW - Microcapillary gas flow

    KW - Photonic crystal fiber

    UR - http://www.scopus.com/inward/record.url?scp=33847707856&partnerID=8YFLogxK

    UR - http://www.scopus.com/inward/citedby.url?scp=33847707856&partnerID=8YFLogxK

    M3 - Article

    AN - SCOPUS:33847707856

    VL - 127

    JO - IEEJ Transactions on Sensors and Micromachines

    JF - IEEJ Transactions on Sensors and Micromachines

    SN - 1341-8939

    IS - 3

    ER -