Point-by-point inscribed sapphire parallel fiber Bragg gratings in a fully multimode system for multiplexed high-temperature sensing

Guannan Shi; Randy Shurtz; Gary Pickrell; Anbo Wang; Yizheng Zhu

doi:10.1364/OL.471370

Optics Letters
Vol. 47,
Issue 18,
pp. 4724-4727
(2022)
•https://doi.org/10.1364/OL.471370

Point-by-point inscribed sapphire parallel fiber Bragg gratings in a fully multimode system for multiplexed high-temperature sensing

Guannan Shi, Randy Shurtz, Gary Pickrell, Anbo Wang, and Yizheng Zhu

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Guannan Shi, Randy Shurtz, Gary Pickrell, Anbo Wang, and Yizheng Zhu, "Point-by-point inscribed sapphire parallel fiber Bragg gratings in a fully multimode system for multiplexed high-temperature sensing," Opt. Lett. 47, 4724-4727 (2022)

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- Optical Sensors, Measurements, and Metrology
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About this Article
History
- Original Manuscript: July 27, 2022
- Revised Manuscript: August 18, 2022
- Manuscript Accepted: August 21, 2022
- Published: September 9, 2022

Abstract

We study the point-by-point inscription of sapphire parallel fiber Bragg gratings (sapphire pFBGs) in a fully multimode system. A parallel FBG is shown to be critical in enabling detectable and reliable high-order grating signals. The impacts of modal volume, spatial coherence, and grating location on reflectivity are examined. Three cascaded seventh-order pFBGs are fabricated in one sapphire fiber for wavelength multiplexed temperature sensing. Using a low-cost, fully multimode 850-nm interrogator, reliable measurement up to 1500°C is demonstrated.

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