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圆环杆与平板连杆的适合光路集成的二维正方晶格光子晶体(英文) 被引量:1

2D Square-lattice Photonic Crystal Based on Circular-ring Cylinders and Thin Cross Plates Suitable for Optical Integrated Circuits
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摘要 提出了一种基于圆环杆与平板连杆的二维正方晶格光子晶体结构,讨论了绝对禁带的计算过程和各参数对绝对禁带宽度的影响.通过平面波展开法结合逐次逼近方法发现其最大绝对禁带相对值达到19.026%,比采用圆柱杆和平板连杆结构的二维正方晶格光子晶体以及采用圆环杆但无连杆的二维正方晶格光子晶体的最大绝对禁带相对值分别提高10.181%和712.035 9%;圆环杆的外径、圆环的相对厚度以及连杆的宽度都存在一个最佳值,且连杆宽度对绝对禁带相对值的影响比较敏感. A square-lattice photonic crystal structure was proposed based on circular-ring cylinders and thin cross plates.The calculation process and the influence of operating parameters on the absolute bandgaps were presented.It is demonstrated through plane wave expansion method combined with cut-and-try method that its maximum relative absolute photonic bandgap reaches 19.026%,which is 10.181% and712.035 9% higher than that in a PhC made of solid cylinder and connecting veins and that in a PhC made of dielectric rings,respectively.And there exist optimum values for the outer radius of the circular-ring cylinders,the relative ring thickness,and the thickness of the cross plates.Furthermore,the influence of the thickness of the cross plates on the relative APBG is quite sensitive.
作者 王晶晶 欧阳征标 文国华 黄浩 林密 王琼
机构地区 深圳大学电子科学与技术学院深圳市微纳光子信息技术重点实验室太赫兹技术研究中心
出处 《光子学报》 EI CAS CSCD 北大核心 2015年第4期82-86,共5页 Acta Photonica Sinica
基金 The National Natural Science Foundation of China(No.61275043) the Shenzhen Science Bureau(No.CXB201105050064A)
关键词 光子晶体 光子禁带材料 集成光学材料 Photonic crystal Photonic bandgap materials Integrated optics materials
分类号 O436 [机械工程—光学工程]
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参考文献11

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同被引文献24

  • 1疏静.基于宽度可调节的线缺陷平板型光子晶体的空气槽微腔[J].光子学报,2012,41(4):442-445. 被引量:1
  • 2何俊,杨明,刘明睿,胡强高.DWDM系统光通道性能在线监控模块[J].光通信研究,2006(1):48-51. 被引量:5
  • 3KOZICKI B,MARUTA A,KITAYAMA K.Experimental demonstration of optical performance monitoring for RZ-DPSK signals using delay-tap sampling method[J].Optics Express,2008,16(6):3566-3576.
  • 4SHEN T S R,LAU A P T,YU C Y.Simultaneous and independent multi-parameter monitoring with fault localization for DSP-based coherent communication systems[J].Optics Express,2010,18(23):23608-23619.
  • 5HOU L X,SHI Q,LU Y M,et al.Adaptive fibre nonlinearity precompensation based on optical performance monitoring in coherent optical OFDM transmission systems[J].Optik,2013,124(1):71-73.
  • 6ROSTAMI A,HADDADPOUR A,NAZARI F,et al.Proposal for anultracompact?tunable?wavelength-division-multiplexing optical filter based on quasi-2D photonic crystals[J].Journal of Optics,2010,12(1):015405.
  • 7ZHANG Huai-dong,MUHAMMMAD A,LUO Jun,et al.Electrically tunable infrared filter based on the liquid crystal Fabry-Perot structure for spectral imaging detection[J].Applied Optics,2014,53(25):5632-5639.
  • 8NIYAZI M,AMIRKHANI A,MOSAVI M R.Investigation and simulation of a two-channel drop filter with tunable double optical resonators[J].Journal of Superconductivity and Novel Magnetism,2014,27:827-834.
  • 9JOHN S.Strong localization of photons in certain disordered dielectric snperlattices[J].Physical Review Letters,1987,58(23):2486-2489.
  • 10YABLONVITCH E.Inhibited spontaneons emission in solid-state physics and electronics[J].Physical Review Letters,1987,58(20):2059-2062.

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光子学报
2015年 第4期

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