Analysis and Simulation of S-shaped Waveguide in Silicon-on-insulator 被引量：1

Analysis and Simulation of S-shaped Waveguide in Silicon-on-insulator

下载PDF

导出

摘要 The simulation and analysis of S-shaped waveguide bend are presented.Bend radius larger than 30 mm assures less than 0.5 dB radiation loss for a 4-μm-wide silicon-on-insulator waveguide bend with 2-μm etch depth.Intersection angle greater than 20° provides negligible crosstalk (<-30 dB) and very low insertion loss.Any reduction in bend radius and intersection angle is at the cost of the degradation of characteristics of bent waveguide and intersecting waveguide, respectively. The simulation and analysis of S-shaped waveguide bend are presented.Bend radius larger than 30 mm assures less than 0.5 dB radiation loss for a 4-μm-wide silicon-on-insulator waveguide bend with 2-μm etch depth.Intersection angle greater than 20° provides negligible crosstalk (<-30 dB) and very low insertion loss.Any reduction in bend radius and intersection angle is at the cost of the degradation of characteristics of bent waveguide and intersecting waveguide, respectively.

作者 WANGZhang-tao FANZhong-cao XIAJin-song CHENShao-wu YuJinzhong

机构地区 StateKeyLaboratoryonIntegratedoptoelectronics

出处《Semiconductor Photonics and Technology》 CAS 2004年第2期78-81,共4页 半导体光子学与技术（英文版）

基金 NationalNaturalScienceFoundationofChina (6 9896 2 6 0and 6 9990 5 4 0 ) National"973"Project (G2 0 0 0 0 36 6 )

关键词 BPM S-shaped bend SILICON-ON-INSULATOR BPM S形状硅上绝缘体波导

分类号 TN252 [电子电信—物理电子学]

引文网络
相关文献

参考文献6

1[1]Hutcheson L D,White I A,Burke J J.Comparison of bending losses in integrated circuits[J].Opt.Lett.,1990,5(6):276-278.
2[2]Marcatili E A J.Bends in optical dielectric guides[J].The Bell System Technical Journal,1969,48(9):2 103-2 131.
3[3]Soref R A,Schmidtchen J,Petermann K.Large single-mode rib waveguides in GeSi/Si and Si-on-SiO2[J].IEEE J.Quant.Electron.,1991,QE-27(8):1 971-1 973.
4[4]Daly M G,Jessop P E,Yevick D.Crosstalk reduction and losses of intersecting rib waveguides[J].J.Lightwave Technol.,1996,14(7):1 695-1 698.
5[5]Pennings E C M,Deri R J,Hawkings R J.Simple method for estimating usable bend radii of deeply etched optical rib waveguides[J].1991,27(17):1 532-1 534.
6[6]Aretz K,Bulow H.Reduction of crosstalk and losses of intersecting waveguide[J].Electron.Lett.,1989,25(11):730-731.

同被引文献12

1Madigan C F,Lu M-H,Sturm J C.Improvement of output coupling efficiency of organic light-emitting diodes by backside substrate modification[J].Appl.Phys.Lett.,2000,76:1 650.
2Ryu Han-Youl,Hwang Jeong-Ki,Lee Yong-Jae,et al.Enhancement of light extraction from two-dimensional photonic crystal slab structures[J].IEEE J.Selet.Top.Quantum Electron.,2002,8(2):238.
3Schnitzer I,Yablonovitch E.30% external quantum efficiency from surface textured,thin-film light-emitting diodes[J].Appl.Phys.Lett.,1993,63:2 174.
4Lu M-H,Sturm J C.External coupling efficiency in planar organic light-emitting devices[J].Appl.Phys.Lett.,2001,78:1 927.
5Fan S,Villeneuve P R,Joannopoulos J D,et al.High extraction efficiency of spontaneous emission from slabs of photonic crystals[J].Phys.Rev.Lett.,1997,78:3 294.
6Sun Ching-Cherng,Lin Chao-Ying,Lee Tsung-Xian,et al.Enhancement of light extraction of GaN-based light-emitting diodes with a microstructure array[J].Opt.Eng.,2004,43(8):1 700-1 701.
7Kim Y C,Do Y R.Nanohole-templated organic light-emitting diodes fabricated using laser-interfering lithography:Moth-eye lighting[J].Opt.Express,2005,13(5):1 598-1 603.
8Kitamura M,Iwamoto S,Arakawa Y.Enhanced luminance efficiency of organic light-emitting diodes with two-dimensional photonic crystals[J].Jpn.J.Appl.Phys.,2005,44(4B):2 844-2 848.
9Lee Yong-Jae,Kim Se-Heon,Huh Joon,et al.A high-extraction-efficiency nano-patterned organic light-emitting diode[J].Appl.Phys.Lett.,2003,82:3 779.
10Boroditsky M,Krauss T F,Coccioli R,et al.Light extraction from optically pumped light-emitting diode by thin-slab photonic crystals[J].Appl.Phys.Lett.,1999,75:1 036.

引证文献1

1LE Min-da,YAN Rong-jin,WANG Qing-kang.Light Extraction Efficiency in OLED with Sub-wavelength Structures[J].Semiconductor Photonics and Technology,2006,12(1):10-14.

1田甜,安建平,张若冰.Tracking error analysis and simulation of FLL-assisted PLL[J].Journal of Beijing Institute of Technology,2012,21(4):532-537. 被引量：1
2LIU Kang XIAO Huai-Tie FAN Hong-Qi.Analysis and Simulation of Quantum Radar Cross Section[J].Chinese Physics Letters,2014,31(3):62-64. 被引量：7
3刘竞博,李萍剑,陈远富,宋欣波,戚飞,郑斌杰,贺加瑞,文岐业,张万里.Graphene field effect transistor-based terahertz modulator with small operating voltage and low insertion loss[J].Chinese Optics Letters,2016,14(5):83-87.
4M.C.Debnath,T.D.Mishima,M.B.Santos,K.Hossain.Effect of substrate miscut on the electron mobility in InSb(001) structures on Ge and Ge-on-insulator substrates[J].Chinese Science Bulletin,2014,59(4):369-373.
5Yinhui Xu,Xichao Dong,Cheng Hu,Yuanhao Li.Simulation and Analysis of the Impacts of Anisotropic Ionospheric Scintallition on Geosynchronous Synthetic Aperture Radar[J].Journal of Beijing Institute of Technology,2017,26(1):115-120.
6Shi Shuangning,Shang Yong,Liang Qinglin,Liang Bin.ANALYSIS AND SIMULATION OF QSP BEAMFORMER[J].Journal of Electronics(China),2007,24(6):812-814.
7韩志涛,褚金奎,孟凡涛,金仁成.Design and simulation of blue/violet sensitive photodetectors in silicon-on-insulator[J].Journal of Semiconductors,2009,30(10):59-62. 被引量：1
8WU Jian-wei,LUO Feng-guang,Cristiano de Mello Gallep.Propagation of Ultra-fast Femtosecond Pulses in Silicon-on-insulator Optical Waveguides[J].Semiconductor Photonics and Technology,2007,13(4):261-267.
9周长柱,刘娅钊,李志远.Waveguide Bend of 90° in Two-Dimensional Triangular Lattice Silicon Photonic Crystal Slabs[J].Chinese Physics Letters,2010,27(8):92-95. 被引量：6
10马志华,曹权,左玉华,郑军,薛春来,成步文,王启明.Infrared response of the lateral PIN structure of a highly titanium-doped silicon-on-insulator material[J].Chinese Physics B,2011,20(10):345-348.

Semiconductor Photonics and Technology

2004年第2期

浏览历史

内容加载中请稍等...

Analysis and Simulation of S-shaped Waveguide in Silicon-on-insulator 被引量：1

参考文献6

同被引文献12

引证文献1

相关作者

相关机构

相关主题

浏览历史