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The influence of the monitoring point wavelength on the axial strain sensitivity of high-birefringence fiber loop mirror is investigated. The theoretical expression for the axial strain sensitivity of high-birefringence fiber loop mirror is developed. The results show that the sensitivity increases with the wavelength of the monitoring point increasing when the high-birefringence fiber material is certain, that the sensitivity is constant and the wavelength shift is linear versus strain for the certain monitoring point. The axial strain sensitivities of the different wave peaks are monitored in experiment. The experimental results of data fitting are in good agreement with the theoretical ones. The research results help to improve the strain sensitivity, the temperature sensitivity, etc. of high-birefringence fiber loop mirror.
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Keywords:
- wavelength /
- sensitivity /
- monitoring point /
- high-birefringence fiber loop mirror
[1] Mortimore D B 1988 J. Lightwave Technol. 6 1217
[2] Qian W W, Zhao C L, Dong X Y, Zhang Z X, Jin S Z 2010 J. Optoelectron. ·Laser Sin. 21 1273 (in Chinese) [钱文文, 赵春柳, 董新永, 张在宣, 金尚忠 2010 光电子·激光 21 1273]
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[4] Dong X Y, Tam H Y, Shum P 2007 Appl. Phys. Lett. 90 151113
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[6] Hwang K J, Kim G H, Lim S D, Lee K, Park J W, Lee S B 2011 Jpn. J. Appl. Phys. 50 032202
[7] Zhang F, Lit J W Y 1992 Appl. Opt. 32 2213
[8] Pang M, Xiao L M, Jin W 2012 J. Lightwave Technol. 30 1422
[9] Zhao Y, Song T T, Wu D, Wang Q 2012 Sensor Actuat. A Phys. 184 22
[10] Zhang J, Qiao X G, Guo T, Ma Y, Wang R H, Weng Y Y, Rong Q Z, Hu M L, Feng Z Y, Zhao P 2012 IEEE Sens. J. 12 2077
[11] Lim K S, Pua C H, Harun S W, Ahmad H 2010 Opt. Laser Technol. 42 377
[12] Sun G Y, Tang H J, Hu Y H, Zhou Y W 2012 IEEE Photonic. Tech. L. 24 587
[13] Wang J, Zheng K, Li J, Liu L S, Chen G X, Jian S S 2009 Acta Phys. Sin. 58 7695 (in Chinese) [王静, 郑凯, 李坚, 刘利松, 陈根祥, 简水生 2009 58 7695]
[14] Fang W 2006 M. S. Dissertation (Tianjin: Tianjin University of Technology) (in Chinese) [方伟 2006 硕士学位论文 (天津: 天津理工大学)]
[15] Varnham M P, Payne D N, Barlow A J, Birch R D 1983 J. Lightwave Technol. 19 699
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[1] Mortimore D B 1988 J. Lightwave Technol. 6 1217
[2] Qian W W, Zhao C L, Dong X Y, Zhang Z X, Jin S Z 2010 J. Optoelectron. ·Laser Sin. 21 1273 (in Chinese) [钱文文, 赵春柳, 董新永, 张在宣, 金尚忠 2010 光电子·激光 21 1273]
[3] Frazão O, Egypto D, Bittencourt L A, Giraldi M T M R, Marques M B 2008 Microwave Opt. Technol. Lett. 50 3512
[4] Dong X Y, Tam H Y, Shum P 2007 Appl. Phys. Lett. 90 151113
[5] Zhang H, Liu B, Wang Z, Luo J H, Wang S X, Jia C H, Ma X R 2010 Opt. Appl. 40 209
[6] Hwang K J, Kim G H, Lim S D, Lee K, Park J W, Lee S B 2011 Jpn. J. Appl. Phys. 50 032202
[7] Zhang F, Lit J W Y 1992 Appl. Opt. 32 2213
[8] Pang M, Xiao L M, Jin W 2012 J. Lightwave Technol. 30 1422
[9] Zhao Y, Song T T, Wu D, Wang Q 2012 Sensor Actuat. A Phys. 184 22
[10] Zhang J, Qiao X G, Guo T, Ma Y, Wang R H, Weng Y Y, Rong Q Z, Hu M L, Feng Z Y, Zhao P 2012 IEEE Sens. J. 12 2077
[11] Lim K S, Pua C H, Harun S W, Ahmad H 2010 Opt. Laser Technol. 42 377
[12] Sun G Y, Tang H J, Hu Y H, Zhou Y W 2012 IEEE Photonic. Tech. L. 24 587
[13] Wang J, Zheng K, Li J, Liu L S, Chen G X, Jian S S 2009 Acta Phys. Sin. 58 7695 (in Chinese) [王静, 郑凯, 李坚, 刘利松, 陈根祥, 简水生 2009 58 7695]
[14] Fang W 2006 M. S. Dissertation (Tianjin: Tianjin University of Technology) (in Chinese) [方伟 2006 硕士学位论文 (天津: 天津理工大学)]
[15] Varnham M P, Payne D N, Barlow A J, Birch R D 1983 J. Lightwave Technol. 19 699
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