Abstract
In this paper, a novel birefringence measurement method through the Rayleigh backscattered lightwave within single-mode fiber is proposed, using a single chirped-pulse with arbitrary state of polarization. Numerical analysis is carried out in detail, then pulse-compression phase-sensitive optical time domain reflectometry (PC-Φ-OTDR) with polarization-diverse coherent detection is employed to verify this method. A 2km spun single-mode fiber is tested with 8.6 cm spatial resolution, and the average birefringence of the fiber under test is measured as 0.234rad/m, which is consistent with previous literatures about single-mode fiber. Moreover, the relationship between the measured birefringence and the spatial resolution is also studied for the first time, and the results show that spatial resolution is crucial for fiber birefringence measurement.
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18 February 2021
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18 February 2021
An Erratum to this paper has been published: https://doi.org/10.1007/s13320-021-0624-7
12 September 2020
An Erratum to this paper has been published: https://doi.org/10.1007/s13320-021-0624-7
References
A. Galtarossa and L. Palmieri, “Distributed polarization sensing,” in 25th International Conference on Optical Fiber Sensors, Jeju, Korea, 2017, pp. 1032318.
S. Rashleigh, “Origins and control of polarization effects in single-mode fibers,” Journal of Lightwave Technology, 1983, 1(2): 312–331.
A. Wegmuller, M. Legre, and N. Gisin, “Distributed beatlength measurement in single-mode fibers with optical frequency-domain reflectometry,” Journal of Lightwave Technology, 2002, 20(5): 828–835.
A. M. Kurbatov and R. A. Kurbatov, “Polarization and modal filters based on W-fibers panda for fiber-optic gyroscopes and high-power fiber lasers,” Optical Engineering, 2013, 52(3): 035006.
R. Wang, S. Xu, W. Li, and X. Wang, “Optical fiber current sensor research: review and outlook,” Optical and Quantum Electronics, 2016, 48(9): 442.
B. E. Olsson, M. Karlsson, and P. A. Andrekson, “Polarization mode dispersion measurement using a Sagnac interferometer and a comparison with the fixed analyzer method,” IEEE Photonics Technology Letters, 1998, 10(7): 997–999.
X. Fang and R. O. Claus, “Polarization-independent all-fiber wavelength-division multiplexer based on a Sagnac interferometer,” Optics Letters, 1995, 20(20): 2146–2148.
C. S. Kim, Y. G. Han, R. M. Sova, U. C. Paek, Y. Chung, and J. U. Kang, “Optical fiber modal birefringence measurement based on Lyot-Sagnac interferometer,” IEEE Photonics Technology Letters, 2003, 15(2): 269–271.
Z. Ren, Y. Wang, and P. A. Robert, “Faraday rotation and its temperature dependence measurements in low-birefringence fibers,” Journal of Lightwave Technology, 1989, 7(8): 1275–1278.
M. Segura, N. Vukovic, N. White, W. H. Loh, F. Poletti, et al., “Low birefringence measurement and temperature dependence in meter-long optical fibers,” Journal of Lightwave Technology, 2015, 33(12): 2697–2702.
L. Thévenaz, M. Facchini, A. Fellay, M. Niklès, and P. Robert, “Evaluation of local birefringence along fibres using Brillouin analysis,” in Conference Digest OFMC’97, Teddington, UK, 1997, pp: 82–85.
Y. Lu, X. Bao, L. Chen, S. Xie, and M. Pang, “Distributed birefringence measurement with beat period detection of homodyne Brillouin optical time-domain reflectometry,” Optics Letters, 2012, 37(19): 3936–3938.
A. J. Rogers, “Polarization-optical time domain reflectometry: a technique for the measurement of field distributions,” Applied Optics, 1981, 20(6): 1060–1074.
A. Galtarossa, L. Palmieri, M. Schiano, and T. Tambosso, “Statistical characterization of fiber random birefringence,” Optics Letters, 2000, 25(18): 1322–1324.
M. A. Soto, X. Lu, H. F. Martins, M. Gonzalez-Herraez, and L. Thévenaz, “Distributed phase birefringence measurements based on polarization correlation in phase-sensitive optical time-domain reflectometers,” Optics Express, 2015, 23(19): 24923–24936.
L. Liu, C. Wu, C. Shang, Z. Li, and J. Wang, “Quaternion approach to the measurement of the local birefringence distribution in optical fibers,” IEEE Photonics Journal, 2015, 7(4): 1–14.
L. Costal, R. Magalhaes, L. Palmieri, H. Martins, S. Martin-Lopez, M. R. Fernández-Ruiz, et al., “Fast and direct measurement of the linear birefringence profile in standard single-mode optical fibers,” Optics Letters, 2020, 45(3): 623–626.
J. Xiong, J. Jiang, Y. Wu, Y. Chen, L. Xie, Y. Fu, et al., “Chirped-pulse coherent-OTDR with predistortion,” Journal of Optics, 2018, 20(3): 034001.
F. Corsi, A. Galtarossa, and L. Palmieri, “Analytical treatment of polarization-mode dispersion in single-mode fibers by means of the backscattered signal,” Journal of the Optical Society of America A, 1999, 16(3): 574–583.
Z. Wang, Y. Fu, X. Qian, L. Zhang, and Y. Rao, “Proposal for distributed measurement of Müller matrix in optical fibers,” in 2016 15th International Conference on Optical Communications and Networks (ICOCN), China, Sept. 24–27, 2016, pp: 1–3.
Z. Yu, X. Yi, Q. Yang, M. Luo, J. Zhang, L. Chen, et al., “Polarization demultiplexing in stokes space for coherent optical PDM-OFDM,” Optics Express, 2013, 21(3): 3885–3890.
M. Ren, P. Lu, L. Chen, and X. Bao, “Theoretical and experimental analysis of Φ-OTDR based on polarization diversity detection,” IEEE Photonics Technology Letters, 2015, 28(6): 697–700.
J. Jiang, Z. Wang, Z. Wang, Y. Wu, S. Lin, J. Xiong, et al., “Coherent Kramers-Kronig receiver for Φ-OTDR,” Journal of Lightwave Technology, 2019, 37(18): 4799–4807.
A. Kumar and A. K. Ghatak, Polarization of light with applications in optical fibers. Washington, USA: SPIE Press, 2011: 98–118.
Z. Wang, L. Zhang, S. Wang, N. Xue, F. Peng, M. Fan, et al., “Coherent Φ-OTDR based on I/Q demodulation and homodyne detection,” Optics Express, 2016, 24(2): 853–858.
A. Galtarossa and L. Palmieri, “Reflectometric measurements of PMD properties in long single-mode fibers,” Optical Fiber Technology, 2003, 9(3): 119–142.
G. J. Foschini and C. D. Poole, “Statistical theory of polarization dispersion in single mode fibers,” Journal of Lightwave Technology, 1991, 9(11): 1439–1456.
P. K. A. Wai and C. R. Menyak, “Polarization mode dispersion, decorrelation, and diffusion in optical fibers with randomly varying birefringence,” Journal of Lightwave Technology, 1996, 14(2): 148–157.
M. J. Li and D. A. Nolan, “Fiber spin-profile designs for producing fibers with low polarization mode dispersion,” Optics Letters, 1998, 23(21): 1659–1661.
L. Palmieri, “Polarization properties of spun single-mode fibers,” Journal of Lightwave Technology, 2006, 24(11): 4075–4088.
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Chen, Y., Fu, Y., Xiong, J. et al. Distributed Fiber Birefringence Measurement Using Pulse-Compression Φ-OTDR. Photonic Sens 11, 402–410 (2021). https://doi.org/10.1007/s13320-020-0604-3
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DOI: https://doi.org/10.1007/s13320-020-0604-3