Photonic Crystal Fiber Fabry-Perot Interferometers With High-Reflectance Internal Mirrors

Rong FAN; Yuanbin HOU; and Wei SUN

doi:10.1007/s13320-015-0234-3

Photonic Sensors, Volume. 5, Issue 2, 97(2015)

Photonic Crystal Fiber Fabry-Perot Interferometers With High-Reflectance Internal Mirrors

Rong FAN^1,2,3, Yuanbin HOU^1、*, and and Wei SUN^2,3

Author Affiliations

¹School of Electric and Control Engineering, Xi’an University of Science and Technology, Xi’an, 710054, China

²Chongqing Research Institute of China Coal Technology Engineering Group, Chongqing, 400039, China

³Chongqing Engineering Research Center of Key Technologies of Mine Internet of Things, Chongqing, 400039, China

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References(13)

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[2] [2] T. Zhu, D. Wu, M. Liu, and D. Duan, “In-line fiber optic interferometricsensors in single-mode fibers,” Sensors, 2012, 12(8): 10430-10449.

[3] [3] X. Wang, J. Xu, Y. Zhu, K. L. Cooper, and A. Wang, “All-fused-silica miniature optical fiber tip pressure sensor,” Optics Letters, 2006, 31(7): 885-887.

[4] [4] E. Cibula and D. Donlagic, “In-line short cavity Fabry-Perot strain sensor for quasi distributed measurement utilizing standard OTDR,” Optics Express, 2007, 15(14): 8719-8730.

[5] [5] Z. Ran, Y. Rao, H. Deng, and X. Liao, “Miniature in-line photonic crystal fiber etalon fabricated by 157 nm laser micromachining,” Optics Letters, 2007, 32(21): 3071-3073.

[6] [6] Y. Rao, M. Deng, D. Duan, X. Yang, T. Zhu, and G. Cheng, “Micro Fabry-Perot interferometers in silica fibers machined by femtosecond laser,” Optics Express, 2007, 5(21): 14123-14128.

[7] [7] D. Jauregui-Vazquez, J. M. Estudillo-Ayala, R. Rojas-Laguna, E. Vargas-Rodriguez, J. M. Sierra-Hernandez, J. C. Hernandez-Garcia, et al., “An all fiber intrinsic Fabry-Perot interferometer based on an air-microcavity,” Sensors, 2013, 13(5): 6355-6364.

[8] [8] Y. Rao, T. Zhu, X. Yang, and D. Duan, “In-line fiber-optic etalon formed by hollow-core photonic crystal fiber,” Optics Letters, 2007, 32(18): 2662-2664.

[9] [9] M. Deng, C. Tang, T. Zhu, and Y. Rao, “PCF-based Fabry-Perot interferometric sensors for strain measurement at high temperatures,” IEEE Photonics Technology Letters, 2011, 23(11): 700-703.

[10] [10] E. Li, G. Peng, and X. Ding, “High spatial resolution fiber-optic Fizeau interferometric strain sensor based on all-fiber spherical microcavity,” Applied Physics Letters, 2008, 92: 101117-1-101117-3.

[11] [11] P. F. C. Antunes, M. F. F. Domingues, N. J. Alberto, and P. S. Andre, “Optical fiber micro-cavity strain sensors produced by the catastrophic fuse effect,” IEEE Photonics Technology Letters, 2014, 26(1): 78-81.

[12] [12] F. C. Favero, L. Araujo, G. Bouwmans, V. Finazzi, J. Villatoro, and V. Pruneri, “Spheroidal Fabry-Perot microcavities in optical fibers for high-sensitivity sensing,” Optics Express, 2012, 20(7): 7112-7118.

[13] [13] L. Xiao, M. S. Demokan, W. Jin, Y. Wang, and C. Zhao, “Fusion splicing photonic crystal fibers and conventional single-mode fibers: microhole collapse effect,” Journal of Lightwave Technology, 2007, 25(11): 3563-3574.

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Rong FAN, Yuanbin HOU, and Wei SUN. Photonic Crystal Fiber Fabry-Perot Interferometers With High-Reflectance Internal Mirrors[J]. Photonic Sensors, 2015, 5(2): 97

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Paper Information

Category: Regular

Received: Nov. 30, 2014

Accepted: Dec. 19, 2014

Published Online: Apr. 20, 2015

The Author Email: HOU Yuanbin (houyb@xust.edu.cn)

DOI:10.1007/s13320-015-0234-3

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology