基于45°辐射倾斜光纤光栅的全光纤偏振相关器件 下载: 1083次
宋青果, 黄成俊, 闫志君, 孙琪真, 刘德明, 张琳. 基于45°辐射倾斜光纤光栅的全光纤偏振相关器件[J]. 光学学报, 2020, 40(23): 2306003.
Qingguo Song, Chengjun Huang, Zhijun Yan, Qizhen Sun, Deming Liu, Lin Zhang. All-Fiber Polarization-Dependent Device Based on 45° Radiated Tilted Fiber Grating[J]. Acta Optica Sinica, 2020, 40(23): 2306003.
[1] Hill K O, Fujii Y, Johnson D C, et al. Photosensitivity in optical fiber waveguides: application to reflection filter fabrication[J]. Applied Physics Letters, 1978, 32(10): 647-649.
[2] 赵玉成, 李唐军, 简水生, 等. 啁啾光栅色散及时延特性研究[J]. 光学学报, 1997: 119-122.
Zhao Y C, Li T J, Jian S S, et al. Investigation of chirped fiber gratings on chromatic dispersion and time delay[J]. Acta Optica Sinica, 1997: 119-122.
[3] 张培琨, 李育林, 刘家英, 等. 优化啁啾光栅耦合系数分布改善其色散特性[J]. 中国激光, 1999, 26(8): 696-700.
[4] 刘乐, 王蒙, 奚小明, 等. 2 μm波段低损耗长周期光纤光栅设计与制作[J]. 光学学报, 2019, 39(3): 0306002.
[5] 陶洪, 芈月安, 古皓, 等. 机械微弯长周期光纤光栅矢量模耦合特性研究[J]. 光学学报, 2020, 40(12): 1206003.
[6] MeltzG, Morey WW, Glenn WH. In-fiber Bragg grating tap[C]//Optical Fiber Communication, January 22, 1990, San Francisco, California. Washington, D.C.: OSA, 1990: TUG1.
[7] Erdogan T, Sipe J E. Tilted fiber phase gratings[J]. Journal of the Optical Society of America A, 1996, 13(2): 296-313.
[8] 郭团, 刘甫, 邵理阳. 倾斜光纤光栅传感器[J]. 应用科学学报, 2018, 36(1): 75-103.
Guo T, Liu F, Shao L Y. Tilted fiber Bragg grating sensors[J]. Journal of Applied Sciences, 2018, 36(1): 75-103.
[10] Yan Z J, Sun Z Y, Zhou K M, et al. Numerical and experimental analysis of sensitivity-enhanced RI sensor based on Ex-TFG in thin cladding fiber[J]. Journal of Lightwave Technology, 2015, 33(14): 3023-3027.
[11] 罗彬彬, 谢浪, 王亚杰, 等. 极大倾角光纤光栅悬臂梁振动传感器性能优化[J]. 光学学报, 2019, 39(8): 0806006.
[13] Zhou K M, Simpson G, Chen X F, et al. High extinction ratio in-fiber polarizers based on 45 degree tilted fiber Bragg gratings[J]. Optics Letters, 2005, 30(11): 1285-1287.
[15] Yan Z J, Mou C B, Wang H S, et al. All-fiber polarization interference filters based on 45°-tilted fiber gratings[J]. Optics Letters, 2012, 37(3): 353-355.
[16] Mou C B, Zhou K M, Zhang L, et al. Characterization of 45°-tilted fiber grating and its polarization function in fiber ring laser[J]. Journal of the Optical Society of America B, 2009, 26(10): 1905-1911.
[17] Wang T X, Yan Z J, Mou C B, et al. Narrow bandwidth passively mode locked picosecond erbium doped fiber laser using a 45° tilted fiber grating device[J]. Optics Express, 2017, 25(14): 16708-16714.
[19] Qin H B, He Q Y, Xing Z K, et al. Numerical and experimental characterization of radiation mode of 45° tilted fiber grating[J]. Journal of Lightwave Technology, 2019, 37(15): 3777-3783.
[20] Qin H B, He Q Y, Xing Z K, et al. In-fiber single-polarization diffraction grating based on radiant tilted fiber grating[J]. Optics Letters, 2019, 44(17): 4407-4410.
[21] Wang G Q, Wang C, Yan Z J, et al. Highly efficient spectrally encoded imaging using a 45° tilted fiber grating[J]. Optics Letters, 2016, 41(11): 2398-2401.
[22] Wang G, Habib U, Yan Z, et al. Highly efficient optical beam steering using an in-fiber diffraction grating for full duplex indoor optical wireless communication[J]. Journal of Lightwave Technology, 2018, 36(19): 4618-4625.
[24] Bouzid A. Abushagur M A G. Scattering analysis of slanted fiber gratings[J]. Applied Optics, 1997, 36(3): 558-562.
[25] Erdogan T. Cladding-mode resonances in short- and long-period fiber grating filters: errata[J]. Journal of the Optical Society of America A, 2000, 17(11): 2113.
[26] Li Y, Froggatt M, Erdogan T. Volume current method for analysis of tilted fiber gratings[J]. Journal of Lightwave Technology, 2001, 19(10): 1580-1591.
[27] Walker R B, Mihailov S J, Lu P, et al. Shaping the radiation field of tilted fiber Bragg gratings[J]. Journal of the Optical Society of America B, 2005, 22(5): 962-974.
宋青果, 黄成俊, 闫志君, 孙琪真, 刘德明, 张琳. 基于45°辐射倾斜光纤光栅的全光纤偏振相关器件[J]. 光学学报, 2020, 40(23): 2306003. Qingguo Song, Chengjun Huang, Zhijun Yan, Qizhen Sun, Deming Liu, Lin Zhang. All-Fiber Polarization-Dependent Device Based on 45° Radiated Tilted Fiber Grating[J]. Acta Optica Sinica, 2020, 40(23): 2306003.