基于铌酸锂光折变光栅的表面等离子滤波器

张明; 余渝栋; 乐孜纯

doi:doi:10.3969/j.issn.1003-501x.2015.10.013

光电工程, 2015, 42 (10): 73, 网络出版: 2015-11-27

基于铌酸锂光折变光栅的表面等离子滤波器

Surface Plasma Filter Based on Photorefractive Grating in Lithium Niobate

论文大纲

张明余渝栋乐孜纯

作者单位

浙江工业大学理学院，杭州 310023

滤波器光折变光栅表面等离子共振二维有限元法铌酸锂 filter photorefractive grating surface plasmon resonance two-dimensional finite element method LiNbO₃

摘要

基于铌酸锂光折变光栅和表面等离子共振(SPR)效应，设计了一种绝缘体-金属-绝缘体结构的滤波器，利用二维有限元法仿真得到，波长656 nm 时SPR 角度为46.399 5°。在定义了光折变复合折射率的基础上，理论推导了SPR 波长对双光束半角的灵敏度。最后研究了铌酸锂晶体内不同光栅周期时，宽光谱光源固定入射激励SPR的光谱特性，发现反射光谱中满足SPR 的波长被滤除；改变光折变光栅周期，SPR 所激励的波长发生偏移。该器件有望用来实现可调谐滤波。

Abstract

An insulator-metal-insulator filter based on Surface Plasmon Resonance (SPR) and photorefractive (PR) grating in Lithium niobate (LiNbO_{3_{) is designed. Through numerical simulation by using two-dimensional finite element method, incident angle of 46.399 5° for stimulating SPR was calculated at a fixed wavelength 656 nm. On the basis of definition of complex refractive index, sensitivity of SPR wavelength to half angle of dual beam was theoretically derived. Finally, under different grating periods in LiNbO_{3_{, reflection spectrum of SPR stimulated from a broadband light source was studied. The results show wavelengths corresponding to SPR are filtered and the SPR wavelengths shift when the period of PR grating is changed. The designed device is expectable for tunable filtering.作者简介：张明(1975-)，男(汉族)，河北唐山人。博士，副教授，主要从事光通信器件和光电}}}}

参考文献

[1] WANG Yu. Wavelength selection with coupled surface plasmon waves [J]. Applied Physics Letters(S0003-6951)，2003， 82(24)：4385-4387.

[2] Homola1 J，Koudelab I，Yee S. Surface plasmon resonance sensors based on diffraction gratings and prism couplers：sensitivity comparison [J]. Sensors and Actuators B：Chemical(S0925-4005)，1999，54(1/2)：16-24.

[3] WANG Tongbiao，WEN Xiewen，YIN Chengping，et al. The transmission characteristics of surface plasmon polaritons in ring resonator [J]. Optics Express(S1094-4087)，2009，17(26)：24096-24101.

[4] ZHANG Qin，HUANG Xuguang，LIN Xianshi，et al. A subwavelength coupler-type MIM optical filter [J]. Optics Express (S1094-4087)，2009，17(9)：7549-7554.

[5] Hukriede J，Runde D，Kip D. Fabrication and application of holographic Bragg gratings in lithium niobate channel waveguides [J]. Journal of Physics D：Applied Physics(S0022-3727)，2003，36(3)：R1-R16.

[6] 张明，孟惠云，陈刘伟，等. 基于光折变光栅的可调谐滤波方案及特性分析 [J]. 光电工程，2012，39(4)：96-101.

ZHANG Ming，MENG Huiyun，CHEN Liuwei，et al. Tunable Filtering Scheme and Characteristics Analysis Based on Photorefractive Gratings [J]. Opto-Electronic Engineering，2012，39(4)：96-101.

[7] 胡鸿璋，詹仰钦，赵慈，等. 钛扩散铌酸锂条形波导的有效折射率截面随扩散参数的变化 [J]. 中国激光，1996，23(4)： 333-337.

HU Hongzhang，ZHAN Yangqin，ZHAO Ci，et al. Variation of the Effective Refractive Index Profile in Ti：LiNbO3 Strip Waveguide with Diffusion Parameters [J]. Chinese Journal of Lasers，1996，23(4)：333-337.

[8] Edwards G J，Lawrence M. A temperature-dependent dispersion equation for congruently grown lithium niobate [J]. Optical and Quantum Electronics(S0306-8919)，1984，16(4)：373-375.

[9] Peithmann K，Hukriede J，Buse K，et al. Photorefractive properties of LiNbO3 crystals doped by copper diffusion [J]. Physical Review B(S1098-0121)，2000，61(7)：4615-4620.

[10] Malovichko G I，Grachev V G，Kokanyan E P，et al. Characterization of stoichiometric LiNbO3 grown from melts containing K2O [J]. Applied Physics A(S1432-0630)，1993，56(2)：103-108.

[11] Buse K，Breer S，Peithmann K，et al. Origin of thermal fixing in photorefractive lithium niobate crystals [J]. Physical Review B(S1098-0121)，1997，56(3)：1225-1235.

[12] Oubre C，Nordlander P. Optical properties of metallodielectric nanostructures calculated using the finite difference time domain method [J]. The Journal of Physical Chemistry B(S1520-6106)，2004，108(46)：17740-17747.

[13] 吕虎，李大海，薄健康，等. 高折射率玻璃微珠色散特性及影响 [J]. 光子学报，2012，41(1)：61-66.

Lü Hu，LI Dahai，BO Jiankang，et al. Dispersion characteristic and its effect of high refractive index glass beads [J]. Acta Photonica Sinica，2012，41(1)：61-66.

[14] GAI Hongfeng，WANG Jia，TIAN Qia. Modified Debye model parameters of metals applicable for broadband calculations [J]. Applied Optics(S1559-128X)，2007，46(12)：2229-2233.

[15] Lynch D W，Hunter W R. Comments on the optical constants of metals and an introduction to the data for several metals [K]. San Diego，Calif：Academic Press，1998：275–367.

张明, 余渝栋, 乐孜纯. 基于铌酸锂光折变光栅的表面等离子滤波器[J]. 光电工程, 2015, 42(10): 73. ZHANG Ming, YU Yudong, LE Zichun. Surface Plasma Filter Based on Photorefractive Grating in Lithium Niobate[J]. Opto-Electronic Engineering, 2015, 42(10): 73.

基于铌酸锂光折变光栅的表面等离子滤波器

关于本站 Cookie 的使用提示

全站搜索

基于铌酸锂光折变光栅的表面等离子滤波器

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索