一维多孔硅声子晶体的带隙研究

人工晶体学报, 2012, 41(5): 1440-1445.

一维多孔硅声子晶体的带隙研究

徐冰茹 ^1, , 徐少辉 ^2, , 王连卫 ^3,

1.华东师范大学电子工程系,上海200241

2.华东师范大学电子工程系,上海200241

3.华东师范大学电子工程系,上海200241

基金项目: 国际合作项目(10520704400) 国家自然科学基金(61176108) 上海自然科学基金(11ZR1411000) 上海市基础重点项目(11JC1403700)

关键词：多孔硅 , 声子晶体 , 带隙

Study on Band Gap of One-dimensional Porous Silicon Phononic Crystal

多孔硅的力学性质随多孔度有较大变化,因此可以用多孔硅材料来构建声子晶体结构.本文将在理论上讨论一维多孔硅声子晶体的带隙,设计出宽禁带声子晶体结构,分析其相关的物理特性.计算结果表明薄的高孔度插入层将获得宽的带隙,而声子晶体异质结能够获得更宽带隙.

参考文献

[1]	Kushwaha M S;Halevi P;Dobrzynski L et al.Acoustic Band Structure of Periodic Elastic Composites[J].Physical Review Letters,1993,71:2022.
[2]	Sigalas M;Economou E N .Band Structure of Elastic Waves in Two Dimensional Systems[J].Solid State Communications,1993,86:141.
[3]	Kafesaki M.;Economou EN. .INTERPRETATION OF THE BAND-STRUCTURE RESULTS FOR ELASTIC AND ACOUSTIC WAVES BY ANALOGY WITH THE LCAO APPROACH[J].Physical Review.B.Condensed Matter,1995(18):13317-13331.
[4]	Maldovan M;Thomas E L.Periodic Materials and Interference Lithography for Photonics,Phononics and Mechanics[M].Weinheim:Wiley-VCH,2008
[5]	Gorishnyy T;Maldovan M;Ullal C et al.Sound Ideas[J].Physics World,2005,18:24-29.
[6]	Kafesaki M.;Economou EN.;Sigalas MM. .ELASTIC WAVE BAND GAPS IN 3-D PERIODIC POLYMER MATRIX COMPOSITES[J].Solid State Communications,1995(5):285-289.
[7]	Canham L T .Silicon Quantum Wire Array Fabrication by Electrochemical and Chemical Dissolution of Wafers[J].Applied Physics Letters,1990,57:1046-1048.
[8]	Bisi O;Ossicini Stefano;Pavesi L .Porous Silicon:a Quantum Sponge Structure for Silicon Based Optoelectronics[J].Surface Science Reports,2000,38:1-126.
[9]	Fan HJ.;Kuok MH.;Ng SC.;Boukherroub R.;Baribeau JM.;Fraser JW. Lockwood DJ. .Brillouin spectroscopy of acoustic modes in porous silicon films - art. no. 165330[J].Physical Review.B.Condensed Matter,2002(16):5330-0.
[10]	A. Reinhardt;P. A. Snow .Theoretical study of acoustic band-gap structures made of porous silicon[J].Physica Status Solidi. A, Applications and Materials Science,2007(5):1528-1535.
[11]	L. C. Parsons;G. T. Andrews .Observation of hypersonic phononic crystal effects in porous silicon superlattices[J].Applied physics letters,2009(24):241909-1-241909-3.
[12]	Thomas L;Aliev G N;Snow P A .Hypersonic Rugate Filters Based on Porous Silicon[J].Applied Physics Letters,2010,97:173503.
[13]	G. N. Aliev;B. Goller;D. Kovalev;P. A. Snow .Hypersonic acoustic mirrors and microcavities in porous silicon[J].Applied physics letters,2010(12):124101-1-124101-3.
[14]	Moctezuma-Enriquez D;Rodriguez-Viveros Y J .Existence of a Giant Hypersonic Elastic Mirror in Porous Silicon Superlattices[J].Applied Physics Letters,2011,99:171901.
[15]	Gorishnyy T;Ullal CK;Maldovan M;Fytas G;Thomas EL .Hypersonic phononic crystals[J].Physical review letters,2005(11):5501-1-5501-4-0.
[16]	Gomopoulos, N;Maschke, D;Koh, CY;Thomas, EL;Tremel, W;Butt, HJ;Fytas, G .One-Dimensional Hypersonic Phononic Crystals[J].Nano letters,2010(3):980-984.
[17]	曹永军,董纯红,周培勤.一维准周期结构声子晶体透射性质的研究[J].物理学报,2006(12):6470-6475.
[18]	朱敏,方云团,沈廷根.一维声子晶体缺陷态的研究[J].人工晶体学报,2005(03):536-541.
[19]	Zi JA.;Zhang C.;Wan J. .Large frequency range of negligible transmission in one-dimensional photonic quantum well structures[J].Applied physics letters,1998(15):2084-2086.
[20]	Qiao F;Zhang C;Wang J et al.Photonic Quantum-Well Structures:Multiple Channeled Filtering Phenomena[J].Applied Physics Letters,2000,77:3698.
[21]	Xu SH.;Xiong ZH.;Gu LL.;Liu Y.;Ding XM.;Zi J.;Hou XY. .Photon confinement in one-dimensional photonic quantum-well structures of nanoporous silicon[J].Solid State Communications,2003(3):125-128.
[22]	Xu S H;Xiong Z H;Gu L L et al.Preparation of One-dimensional Porous Silicon Photonic Quantum-well Structures[J].Applied Physics A,2003,76:589.
[23]	赵言诚,邓连智,苑立波.具有完全带隙的异质结构声子晶体的声波导特性[J].人工晶体学报,2011(05):1311-1315.

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一维多孔硅声子晶体的带隙研究

Study on Band Gap of One-dimensional Porous Silicon Phononic Crystal

参考文献