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High temperature Fabry-Perot probe interrogated with tunable fibre ring laser

High temperature Fabry-Perot probe interrogated with tunable fibre ring laser

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Published

A high temperature fibre-optic based probe is described based on a miniature Fabry-Perot with a maximum operating temperature of ∼700°C limited by the gold coated fibre transceiver link connecting the optical source to the probe. It was interrogated by a tunable fibre laser which could be linearly or sinusoidally tuned at scanning rates of 2 and 20 kHz, respectively. The transfer function of the system is in the form of channelled spectra rather than the usual interference fringes observed for interferometric sensors. The periodicity of the ‘channelled spectra fringes’ is governed by the Fabry-Perot free spectral range which is related to the inverse of the probe temperature.

Inspec keywords: temperature sensors; integrated optics; optical transfer function; temperature measurement; fibre lasers; fibre optic sensors; laser tuning; ring lasers; Fabry-Perot interferometers; micro-optics; probes

Other keywords: high temperature fibre-optic based probe; interference fringes; gold coated fibre transceiver link; interferometric sensors; tunable fibre ring laser; high temperature miniature Fabry-Perot probe; channelled spectra fringe periodicity; transfer function

Subjects: Laser resonators and cavities; Integrated optics; Thermal variables measurement; Fibre optic sensors; Optical interferometry; Modulation and optical transfer functions; Laser beam modulation, pulsing and switching; mode locking and tuning; Laser beam modulation, pulsing and switching; mode locking and tuning; Micro-optical devices and technology; Fibre optic sensors; fibre gyros; Micro-optical devices and technology; Integrated optics; Thermometry; Laser resonators and cavities; Fibre lasers and amplifiers; Fibre lasers and amplifiers

References

    1. 1)
      • Y. Zhu . Sapphire fibre based white light interferometric sensor for high temperature measurements. Opt. Lett. , 711 - 713
    2. 2)
      • Jackson, D.A.: `High temperature probe with low coherence signal recovery based on coherence tracking', Proc. ODIMAP, 2006, Madrid, Spain, V, p. 229–234.
    3. 3)
      • R. Huber . Amplified, frequency swept lasers for frequency domain reflectometry and OCT imaging: design and scaling principles. Opt. Express , 3513 - 3528
    4. 4)
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