[1] [1] Jiang J F, Liu T G, Zhang Y M, et al. Parallel demodulation system and signal-processing method for extrinsic Fabry-Perot interferometer and fiber Bragg grating sensors［J］. Optics Letters, 2005, 30(6): 604-606.

[2] [2] He Huiling, Zhao Chunmei, Chen Dan, et al. Present status of optic fiber sensors［J］. Laser & Optoelectronics Progress, 2004, 41(3): 38-41.

[3] [3] Pei Li, Weng Sijun, Wu Liangying, et al. Progress in optical fiber laser sensing system［J］. Chinese J Lasers, 2016, 43(7): 0700001.

[4] [4] Murphy K A, Gunther M F, Vengsarkar A M, et al. Fabry-Perot fiber-optic sensors in full-scale fatigue testing on an F-15 aircraft［J］. Applied Optics, 1992, 31(4): 431-433.

[5] [5] Pulliam W J, Russler P M, Fielder R S. High-temperature high-bandwidth fiber optic MEMS pressure-sensor technology for turbine-engine component testing［C］. SPIE, 2002, 4578: 229-239.

[6] [6] Elster J L, Trego A, Catterall C, et al. Flight demonstration of fiber optic sensors［J］. SPIE, 2003, 5050: 34-42.

[7] [7] Wang Tingting, Wang Ming, Li Ming, et al. Dual-wavelength demodulation and wavelength optimization for optical fiber Fabry-Pérot sensor［J］. Acta Optica Sinica, 2005, 25(10): 1297-1301.

[8] [8] Cibula E, -Donlagi D. Miniature fiber-optic pressure sensor with a polymer diaphragm［J］. Applied Optics, 2005, 44(14): 2736-2744.

[9] [9] Ma C, Dong B, Gong J M, et al. Decoding the spectra of low-finesse extrinsic optical fiber Fabry-Perot interferometers［J］. Optics Express, 2011, 19(24): 23727-23742.

[10] [10] Zhang X M, Liu Y X, Bae H, et al. Phase modulation with micromachined resonant mirrors for low-coherence fiber-tip pressure sensors［J］. Optics Express, 2009, 17(26): 23965-23974.

[11] [11] Dndliker R, Zimmermann E, Frosio G. Electronically scanned white-light interferometry: A novel noise-resistant signal processing［J］. Optics Letters, 1992, 17(9): 679-681.

[12] [12] Liu T, Fernando G F. A frequency division multiplexed low-finesse fiber optic Fabry-Perot sensor system for strain and displacement measurements［J］. Review of Scientific Instruments, 2000, 71(3): 1275-1278.

[13] [13] Jiang Junfeng, Zou Shengliang, Wang Shuang, at al. Research on signal-to-noise ratio effect in spatial scanning optical fiber Fabry-Perot sensing demodulation system［J］. Acta Optica Sinica, 2015, 35(11): 1106003.

[14] [14] Li Lei, Liu Tiegen, Jiang Junfeng, et al. Birefringent wedges effects on cross-correlation polarization demodulation in optical Fabry-Perot sensors［J］. Journal of Optoelectronics·Laser, 2012, 23(1): 67-73.

[15] [15] Wang Xiaoyun. Study on non-scanning correlative demodulation system of optical fiber Fabry-Peort sensor［D］. Chongqing: Chongqing Universtiy, 2006: 17-18.

[16] [16] Duplain G. Low-coherence interferometry optical sensor using a single wedge polarization readout interferometer: US7259862［P］. 2007-08-21.

[17] [17] Wang S, Liu T G, Jiang J F, et al. Zero-fringe demodulation method based on location-dependent birefringence dispersion in polarized low-coherence interferometry［J］. Optics Letters, 2014, 39(7): 1827-1830.

[18] [18] Li Xiaotong, Cen Zhaofeng. Geometrical·optics·aberrations and optical design［M］. Zhejiang: Zhejiang University Press, 2014: 128-134.

[19] [19] Chen Liwu. The theoretical study of the optical technology of the engineerization of the interference imaging spectrometer of the CE-1 satellite［D］. Xi′an: Xi′an Institute of Optics and Precision Mechanics of Chinese Academy of Sciences, 2006: 125-136.

[20] [20] Meng Xiang′e, Jiang Junfeng, Liu Tiegen, et al. Mathematical model of illumination of CCD in the space scanning optical fiber Fabry-Perot sensor demodulation system［J］. Acta Optica Sinica, 2012, 32(11): 1128006.