薄膜参数对镀膜长周期光纤光栅透射谱的影响

高宇飞; 韩连福; 张勇; 刘超; 刘强; 付长凤

光学技术, 2020, 46 (1): 68, 网络出版: 2020-04-13

薄膜参数对镀膜长周期光纤光栅透射谱的影响

Influence of nano film overlay parameters on the transmission spectra of coated long period fiber gratings

论文大纲

高宇飞韩连福 ^*张勇刘超刘强付长凤

作者单位

东北石油大学电子科学学院, 黑龙江大庆 163318

镀膜长周期光纤光栅有效折射率谐振波长最优膜厚 coated long period fiber gratings effective refractive index resonant wavelength optimum overlay thickness

摘要

基于四层光纤模型, 采用数值模拟方法, 研究了镀膜长周期光纤光栅的膜层折射率及厚度等参数对其传输谱特性的影响。结果表明, 随膜厚增加, 各包层模式有效折射率增大, 谐振波长向短波区漂移。当膜厚达到一定数值后, 有效折射率及谐振波长急剧变化, 长周期光纤光栅频谱出现模式转换现象, 模式跳变转折点对应最优薄膜厚度, 不同薄膜介质对应不同的最优膜厚, 研究对提高长周期光纤光栅传感器的敏感度具有重要的指导意义。

Abstract

Based on four-layer step-index waveguide modeling, the characteristics of long-period fiber grating (LPFGs) with an nm-thick film overlay are investigated and the influence of parameters such as overlay thickness, film refractive index are studied by numerical simulation. The results show that the effective refractive index of cladding modes increases and the resonance peaks shifts towards the shorter wavelength with the increase of film thickness. The shift of the effective refractive index and the resonance wavelength is drastic within a certain thickness range, which causes the mode transition of coated LPFGs. Turning point of mode transition corresponds to the optimum overlay thickness(OOT). The relation of the optimum thickness with overlay refractive index is also analyzed. All of the results can greatly improve the sensitivity of refractive index of the gratings.

参考文献

[1] Vengsarkar A M, Lemaire P J, et al. Long-period fiber gratings as band-rejection filters［J］.Journal of Light Wave Technology, 1996,14 (1): 58-65.

[2] Mathews C B, Libish T M, Kaushalkumar B, et al. A fiber optic biosensor for the detection of cholesterol levels based on chitosan coated long period grating［J］. Optoelectronics Letters,2016,12(1):23-26.

[3] Pilla P, Sandomenico A, Viera Malachovská, et al. A protein-based biointerfacing route toward label-free immunoassays with long period gratings in transition mode［J］. Biosensors & Bioelectronics,2012,31(1):486-491.

[4] 陈海云, 彭保进, 斯剑霄,等. 薄包层长周期光纤光栅薄膜传感器特性研究［J］. 光子学报,2016,45(01):51-56.

Chen Haiyun, Peng Baojin, Si Jianxiao, et al. Film sensor based on long-period fiber grating with reduced cladding［J］. Acta Photonica Sinica,2016,45(01):51-56.

[5] Cusano A, Iadicicco A, Pilla P, et al. Mode transition in high refractive index coated long period grating［J］. Optics Express,2006,14(1):19-34.

[6] Gu Zhengtian, Zhao xiaoyun, Zhang Jiangtao. Transmission spectra of coated phase shifted long-period fiber gratings［J］. Optoelectronics Letters,2009,5(4):244-247.

[7] Esposito F, Zotti A, Ranjan R, et al. Single-ended long period fiber grating coated with polystyrene thin film for butane gas sensing［J］. Journal of Lightwave Technology,2018,36(3):825-832.

[8] Do Xiaowei, Pei Li, Jian Shuisheng. Widely tunable long-period fiber grating with nm-thick higher refractive index film overlay［J］. Optik-International Journal for Light and Electron Optics,2006,117(10):462-467.

[9] 于秀娟, 张敏, 王利威, 等. 镀高折射率纳米膜的长周期光纤光栅特性研究［J］. 光学学报,2009,29(10):2665-2672.

Yu Xiujuan, Zhang Min, Wang Liwei, et al. Characteristics of long-period optical fiber grating with high refractive index nm-thick film overlay［J］. Acta Optica Sinica,2009,29(10):2665-2672.

[10] 欧启标, 代国勇, 彭宇林, 等. 膜层厚度对长周期光纤光栅谐振波长的影响［J］. 激光与红外,2012,42(06):686-690.

Ou Qibiao, Dai Guoyong, Peng Yulin, et al. Influence of overlay thickness on the resonant wavelength of LPFG［J］. Laser＆Infrared,2012,42(6):686-690.

[11] Erdogan T. Cladding-mode resonances in short- and long-period fiber grating filters［J］. Journal of the Optical Society of America A,1997,14(8):1760-1773.

[12] 顾铮先, 蓝锦龙. 基于模式转换的镀膜长周期光纤光栅传感器的结构优化设计［J］. 中国激光,2014,41(01):139-144.

Gu Zhengtian, Lan Jinglong. Design optimization of coated long-period fiber grating based on mode transition［J］. Chinese Journal of Lasers,2014,41(01):139-144.

[13] Del Villar, Ignacio Matías, Ignacio R, et al. Deposition of overlays by electrostatic self-assembly in long-period fiber gratings［J］. Optics Letters,2005,30(7):720-722.

高宇飞, 韩连福, 张勇, 刘超, 刘强, 付长凤. 薄膜参数对镀膜长周期光纤光栅透射谱的影响[J]. 光学技术, 2020, 46(1): 68. GAO Yufei, HAN Lianfu, ZHANG Yong, LIU Chao, LIU Qiang, FU Changfeng. Influence of nano film overlay parameters on the transmission spectra of coated long period fiber gratings[J]. Optical Technique, 2020, 46(1): 68.

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