Semiconductor Optoelectronics, Volume. 41, Issue 4, 464(2020)
Review of Designs and Applications of Photonic Crystal Fiber
[1] [1] Knight J C, Birks T A, Russell P St J. Allsilica singlemode optical fiber with photonic crystal cladding[J]. Opt. Lett., 1996, 21(19): 15471549.
[2] [2] Knight J C, Broeng J, Birks T A. Photonic band gap guidance in optical fibers[J]. Science, 1998, 282(5393): 14761478.
[3] [3] Yu Jinhua, Li Qianghua, Yu Chengcheng. Optical properties analysis of photonic crystal fiber based on inner elliptical holes[J]. Study on Optical Communications, 2019, 4(7): 3639.
[4] [4] Sun C, Wang W, Jia H. A squeezed photonic crystal fiber for residual dispersion compensation with high birefringence over S+C+L+U wavelength bands[J]. Opt. Commun., 2020, 458: 124757.
[5] [5] Zhou Lingde, Li Xiaofu, Yu Haihu, et al. Research progress and applications of photonic crystal fiber[J]. J. of Functional Materials, 2014, 12(45): 1200612018.
[6] [6] Birks T A, Knight J C, Russell P St J. Endlessly singlemode photonic crystal fiber[J]. Opt. Lett., 1997, 22(13): 961963.
[7] [7] Monro T M, Bennett P J, Broderick N G R, et al. Holey fibers with random cladding distributions[J]. Opt. Lett., 2000, 25(4): 206208.
[8] [8] Cao Hexin, Zhang Han, Lv Fuyong, et al. Pressure sensitivity analysis of polarizationmaintaining fiber birefringence[J]. System Simulation Technol., 2019, 15(2): 8792.
[9] [9] Chen Chun. High birefringence properties of photonic crystal fiber and its application[D]. Hefei: Hefei University of Technology, 2017.
[10] [10] Jiang G, Fu Y, Huang Y. High birefringence rectangularhole photonic crystal fiber[J]. Optical Fiber Technol., 2015, 8(10): 163171.
[11] [11] Liu Q, Liu Q, Sun Y, et al. A highbirefringent photonic quasicrystal fiber with two elliptical air holes[J]. Optik, 2019, 184: 1015.
[12] [12] Yang Tianyu, Jiang Haiming, Wang Erlei, et al. Photonic crystal fibers with large birefringence and high nonlinearity in nearinfrared band[J]. J. of Infrared and Millimeter Waves, 2016, 35(3): 350354.
[13] [13] Liu Min,Hou Jingyun, Yang Xu, et al. Design of photonic crystal fiber with elliptical air holes to achieve simultaneous high birefringence and nonlinearity[J]. Chinese Physics B, 2018, 27(1): 389393.
[14] [14] Sheng Yong, Lu Ju, Yao Gaofeng, et al. Analysis of high birefringent and confinement loss of elliptical airholes rectangular photonic crystal fiber[J]. Acta Photonic Sinica, 2014, 43(1): 5053.
[15] [15] Wang Wei, Hou Lantian. Present situation and future development in photonic crystal fibers[J]. Laser & Optoelectronics Progress, 2008, 45(2): 4358.
[16] [16] Li Xuyou, Xu Zhenlong, Ling Weiwei, et al. Numerical simulation and analysis of photonic crystal fiber with high nonlinearity and flattened chromatic dispersion[J]. Chinese J. of Lasers, 2014, 41(5): 119124.
[17] [17] Ge Xiangyou, Li Ping, Wang Xiaojie, et al. Study on a new type high birefringence and flattened dispersion photonic crystal fiber[J]. J. of Appl. Opt., 2006, 27(4): 332335.
[18] [18] Ju Xiaodan, Liu Zhaolun, Ni Zhenghua, et al. Application of dispersion compensation of photonic crystal fibers for modern communication systems[J]. Optical Communication Technol., 2004, 7(7): 2628.
[19] [19] Knight J C, Arriaga J, Birks T A. Anomalous dispersion in photonic crystal fiber[J]. IEEE Photonics Technol. Lett., 2000, 12(7): 807809.
[20] [20] Ferrando A, Silvestre E, Miret J J. Nearly zero ultraflattened dispersion in photonic crystal fibers[J]. Opt. Lett., 2000, 25(11): 790792.
[21] [21] Liu Lai. Study on nonlinear effects in specialty optical fibers and their applications[D]. Jilin: Jilin University, 2014.
[22] [22] Liao J, Huang T, Xiong Z, et al. Design and analysis of an ultrahigh birefriengent nonlinear spiral photonic crystal fiber with large negative flattened disperison[J]. Optik, 2017, 1(54): 4249.
[23] [23] Zhang Zhijuan, Chen Feifei, Xu Zhiniu, et al. Research status and development trends of Brillouin dynamic grating in distributed optical fiber sensing[J]. Semiconductor Optoelectronics, 2018, 39(4): 455461.
[24] [24] Xu Z, Zhao L. Estimation of error in Brillouin frequency shift in distributed fiber sensor[J]. IEEE Sensors J., 2020, 20(4): 18291837.
[25] [25] Xu Zhiniu, Zhao Lijuan. Accurate and ultrafast estimation of Brillouin frequency shift for distributed fiber sensors[J]. Sensors and Actuators A: Physical, 2020, 303: 111822.
[26] [26] Xu Zhiniu,Hu Yuhang, Zhao Lijuan, et al. Rapid temperature and strain measurement method for opticelectric composite submarine cable based on slopeassisted method[J].Electric Power Automation Equipment, 2020, 40(5): 202208.
[27] [27] Teng L, Zhang H, Dong Y, et al. Temperaturecompensated distributed hydrostatic pressure sensor with a thindiameter polarizationmaintaining photonic crystal fiber based on Brillouin dynamic gratings[J]. Opt. Lett., 2016, 41(18): 44134416.
[28] [28] Teng Lei. High sensitive distributed transverse load sensor based on Brillouin dynamic gratings[D]. Harbin: Harbin Institute of Technol., 2015.
[29] [29] Xu Pengbai. Distribution optical fiber sensing based on stimulated Brillouin scattering in special optical fibers[D]. Harbin: Harbin Institute of Technol., 2018.
[30] [30] Hu M, Song Y, Liu B, et al. Development and advanced applications of femtosecond photonic crystal fiber laser technique[J]. Chinese J. of Lasers, 2009, 36(7): 16601670.
[31] [31] Wang Qingyue, Hu Minglie, Song Youjian, et al. Large mode area photonic crystal fiber laser output high average power femtosecond pulses[J]. Chinese J. of Lasers, 2007, 34(12): 16031606.
[32] [32] Yu Chen, Tian Wenlong, Zhu Jiangfeng, et al. High power Ybdoped allsolidstate femtosecond lasers[J]. Infrared and Laser Engin., 2019, 48(11): 4046.
[33] [33] Ortag B, LimPert J, Tunnermann A. Highenergy femtosecond Ybdoped fiber laser operating in the anomalous dispersion regime[J]. Opt. Express, 2007, 32(15): 21492151.
[34] [34] Ortac B, Schmidt O, Schreiber T, et al. Highenergy femtosecond Ybdoped dispersion compensation free fiber laser[J]. Opt. Express, 2007, 15(17): 1072510732.
[35] [35] Liu B W, Hu M L, Fang X H, et al. Highpower wavelength tunable photonic crystal fiber based oscillator amplifier frequency shifter femtosecond laser system and its applications for material microprocessing[J]. Laser Phys. Lett., 2009, 6(1): 4448.
[36] [36] Zhang Yuying, Zhang Chi, Hu Minglie, et al. Free output coupler highpower all normal dispersion femtosecond photonic crystal fiber laser[J]. Chinese J. of Lasers, 2010, 37(1): 6467.
[37] [37] Zhang Haikun, Cui Xuelong, Xu Jinlong, et al. CW mode locked Yb∶NaY(WO4)2 femtosecond laser with a semiconductor saturable absorber mirror[J]. Chinese J. of Lasers, 2012, 39(11): 1012.
[38] [38] Yin Yafang, Zhou Yuan, Yang Yi, et al. Design and implementation of gas sensing system based on photonic crystal fiber[J]. Semiconductor Optoelectronics, 2015, 36(5): 811814.
[39] [39] Ritari T, Niemi T, Ludvigsen H, et al. Polarizationmode dispersion of large modearea photonic crystal fibers[J]. Optics Communications, 2003, 226(1): 233239.
[40] [40] Jing L. Research on novel gas sensors with photonic crystal fibers[D]. Tianjin: Tianjin University, 2012.
[41] [41] Yang Y, Wang H, Yang F, et al. Polarization maintaining photonic crystal fiber hydrogen sensor based on Sagnac interferometer[J]. Acta Optica Sinica, 2014, 34(8): 8589.
[42] [42] Yang J C, Xin C, Shen R, et al. High sensitivity photonic crystal fiber long period grating methane sensor with cryptophaneA6Me absorbed on a PAACNTs/PAH nanofilm[J]. Opt. Express, 2017, 25(17): 2025820267.
[43] [43] Dash J N, Jha R. SPR biosensor based on polymer PCF coated with conducting metal oxide[J]. IEEE Photonics Technol. Lett., 2014, 26(6): 595598.
[44] [44] Dash J N, Jha R. Highly sensitive D shaped PCF sensor based on SPR for near IR[J]. Optical & Quantum Electronics, 2016, 48(2): 17.
[45] [45] Wang Meng.Research on mechanism and key technologies of photonic crystal fiber SPR gas sensing[D]. Jiangsu: China University of Mining and Technol., 2019.
[46] [46] Liu H, Wang M, Wang Q, et al. Simultaneous measurement of hydrogen and methane based on PCFSPR structure with compound filmcoated sideholes[J]. Optical Fiber Technology, 2018, 5(7): 17.
Get Citation
Copy Citation Text
ZHAO Lijuan, LIANG Ruoyu, XU Zhiniu. Review of Designs and Applications of Photonic Crystal Fiber[J]. Semiconductor Optoelectronics, 2020, 41(4): 464
Category:
Received: Feb. 8, 2020
Accepted: --
Published Online: Aug. 18, 2020
The Author Email: Zhiniu XU (wzcnjxx@sohu.com)