All-optically-driven and All-optical-fiber Vacuum Gauge via Ytterbium-doped Optical Fiber Microheater

Nanjie Yu; Andrey E. Mironov; Sehyun Park; Matthew Tuggle; Jane Gragg; Courtney Kucera; Thomas Hawkins; John Ballato; J. Gary Eden; Peter D. Dragic

doi:10.1364/OFS.2020.T2B.2

Optical Fiber Sensors Conference 2020 Special Edition
OSA Technical Digest (Optica Publishing Group, 2020),
paper T2B.2
•https://doi.org/10.1364/OFS.2020.T2B.2

All-optically-driven and All-optical-fiber Vacuum Gauge via Ytterbium-doped Optical Fiber Microheater

Nanjie Yu, Andrey E. Mironov, Sehyun Park, Matthew Tuggle, Jane Gragg, Courtney Kucera, Thomas Hawkins, John Ballato, J. Gary Eden, and Peter D. Dragic

Optical Fiber Sensors 2020

Washington, DC United States
8–12 June 2020
ISBN: 978-1-55752-307-5

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New Elements, Effects, or Technologies and Materials for Photonic Sensing (T2B)

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N. Yu, A. E. Mironov, S. Park, M. Tuggle, J. Gragg, C. Kucera, T. Hawkins, J. Ballato, J. G. Eden, and P. D. Dragic, "All-optically-driven and All-optical-fiber Vacuum Gauge via Ytterbium-doped Optical Fiber Microheater," in Optical Fiber Sensors Conference 2020 Special Edition, G. Cranch, A. Wang, M. Digonnet, and P. Dragic, eds., OSA Technical Digest (Optica Publishing Group, 2020), paper T2B.2.

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Abstract

A new type of dual-fiber-based thermal vacuum gauge is presented. One heavily-Yb³⁺- doped luminescence-quenched fiber produces heat, another fiber with inscribed FBG senses the resultant thermal exchange. Performance is characterized from 20 mTorr to Standard Pressure.

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