首先回顾了声学多层结构介质的研究历史,在此基础上简要介绍了近几年在声学多层结构介质特异声传输调控和原型声学功能器件方面的一些工作进展。从声学的角度,系统介绍了多层结构介质的有效介质理论,系统声学参数的各向异性近似,在声波隐身斗篷中的应用。通过严格散射理论推导和有限元数值模拟研究了声斗篷系统的近场声压分布和远场散射强度,发现该设计可在低频较宽的频带范围内显著降低被遮蔽区域的声散射截面;在此频率区间内,声信号散射截面随着频率的提高而增加,其截止频率由薄层厚度决定。最后对该领域的研究作了若干展望。
The history of acoustic multilayered medium was reviewed at first. Then progress of the investigation on sound wave manipulation and functional-device prototype based on acoustic muhilayered medium were presented. In the view point of acoustics, the effective-medium theory, anisotropic effective parameter approximation, and the application in a- coustic cloaking device were summarized and introduced. We use the rigorous scattering theory and finite-element simula- tions to investigate the pressure field distribution and far-field scattering pattern. We find that the proposal works efficiently in a wide bandwidth in which the cloaking efficiency decreases with increasing frequency. The working frequency of the cloak depends on the thickness of the layered medium. Finally, some outlook on the potential research directions was dis- Cussed.
参考文献
[1] | Brekhovskikh L M.Waves in Layered Media[M].New York:Ac- ademic Press,1981 |
[2] | Brillouin L.Wave Propagation in Periodic Structures[M].New York:Dover Publications,Inc,1953 |
[3] | Gilbert K .A Propagator Matrix Method for Periodically Stratified Media[J].Journal of The Acoustical Society of America,1979,66:s73. |
[4] | Salamon M D G .Elastic Moduli of a Stratified Rock Mass[J].International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts,1968,5:519-527. |
[5] | Yablonovitch E .Inhibited Spontaneous Emission in Solid-State Physics and Electronics[J].Physical Review Letters,1987,58:2059-2062. |
[6] | I John S .Strong Localization of Photons in Certain Disordered Die- lectric Superlattices[J].Physical Review Letters,1987,58:2486-2489. |
[7] | Joannopoulos J D;Meade R D;Winn J N.Photonic Crystals:Molding the Flow of Light[M].Princeton,New Jersey:Princeton University Press,1995 |
[8] | Sibilia C.Photonic Crystals:Physics and Technology[M].Mila- no:Springer Milan,2008 |
[9] | Smith DR.;Vier DC.;Nemat-Nasser SC.;Schultz S.;Padilla WJ. .Composite medium with simultaneously negative permeability and permittivity[J].Physical review letters,2000(18):4184-4187. |
[10] | Shelby R A;Smith D R;Schultz S .Experimental Verification of a Negative Index of Refraction[J].Science,2001,292:77-79. |
[11] | Kushwaha M S;Halcvi P;Dobrzynski L et al.Acoustic Band- Structure of Periodic Elastic Composites[J].Physical Review Letters,1993,71:2022-2025. |
[12] | Kushwaha M S;Halevi P;Martinez G et al.Theory of Acoustic Band-Structure of Periodic Elastic Composites[J].Physical Re- view B,1994,49:2313-2322. |
[13] | Liu Z Y;Zhang X X;Mao Y W et al.Locally Resonant Sonic Materials[J].Science,2000,289:1734-1736. |
[14] | Liu Z;Chan C T;Sheng P .Analytic Model of Phononic Crystals with IxJcal Resonances[J].Physical Review B,2005,71:014103. |
[15] | Ding YQ;Liu ZY;Qiu CY;Shi J .Metamaterial with simultaneously negative bulk modulus and mass density[J].Physical review letters,2007(9):093904-1-093904-4-0. |
[16] | Fang N;Xi DJ;Xu JY;Ambati M;Srituravanich W;Sun C;Zhang X .Ultrasonic metamaterials with negative modulus[J].Nature materials,2006(6):452-456. |
[17] | Cheng Y;Xu J Y;Liu X J .Broad Forbidden Bands in Parallel- Coupled Locally Resonant Ultrasonic Metamaterials[J].Applied Physics Letters,2008,92:051913. |
[18] | Cheng Y;Xu JY;Liu XJ .One-dimensional structured ultrasonic metamaterials with simultaneously negative dynamic density and modulus[J].Physical review, B. Condensed matter and materials physics,2008(4):045134-1-045134-10-0. |
[19] | Chen HY;Yang T;Luo XD;Ma HR .Impedance-matched reduced acoustic cloaking with realizable mass and its layered design[J].Chinese physics letters,2008(10):3696-3699. |
[20] | Cummer S A;Rahm M;Schurig D .Material Parameters and Vector Scaling in Transformation Acoustics[J].New Journal of Physics,2008,10:115025. |
[21] | Pendry J B;Li J .An Acoustic Metafiuid:Realizing a Broadband Acoustic Cloak[J].New Journal of Physics,2005,10:115032. |
[22] | Chen, HY;Chan, CT .Acoustic cloaking and transformation acoustics[J].Journal of Physics, D. Applied Physics: A Europhysics Journal,2010(11):113001:1-113001:14. |
[23] | Farhat M;Guenneau S;Enoch S .Ultrabroadband Elastic Cloaking in Thin Plates[J].Physical Review Letters,2009,103:024301. |
[24] | Qiu c w;Hu L;Xu X F et al.Spherical Cloaking with Homo- geneous Isotropic Multilayered Structures[J].Physical Review E,2009,79:047602. |
[25] | Andrew N. Norris .Acoustic metafluids[J].The Journal of the Acoustical Society of America,2009(2):839-849. |
[26] | Liu, Y.-H.;Chang, C.-C. .Effective mass density of a periodic array of acoustic media by homogenization analysis[J].Journal of the Physical Society of Japan,2010(1):014401-1-014401-7. |
[27] | Kildishev A V;Cai W;Chettiar U K et al.Transformation Op- tics:Approaching Broadband Electromagnetic Cloaking[J].New Journal of Physics,2008,10:115029. |
[28] | Popa B I;Cummer S A .Design and Characterization of Broad- band Acoustic Composite Metamaterials[J].Physical Review B,2009,80:174303. |
[29] | Torrent D;Sanchez-Dehesa J .Sound Scattering by Anisotropic Metafluids based on Two-Dimensional Sonic Crystals[J].Physi- cal Review B,2009,79:174104. |
[30] | Torrent D;Sanchez-Dehesa J .Acoustic Cloaking in Two Dimen- sions:a Feasible Approach[J].New Journal of Physics,2008,10:063015. |
[31] | Cheng Y;Liu X J .Resonance Effects in Broadband Acoustic Cloak with Multilayered Homogeneous Isotropic Materials[J].Applied Physics Letters,2008,93:071903. |
[32] | CHENG Ying,LIU Xiao-Jun.Extraordinary Resonant Scattering in Imperfect Acoustic Cloak[J].中国物理快报(英文版),2009(01):153-156. |
[33] | Huang Y;Feng Y;Jiang T .Electromagnetic Cloaking by Lay- ered Structure of Homogeneous Isotropic Materials[J].Optics Ex- press,2007,15:11133-11141. |
[34] | Wood B;Pendry JB;Tsai DP .Directed subwavelength imaging using a layered metal-dielectric system[J].Physical review, B. Condensed matter and materials physics,2006(11):5116-1-5116-8-0. |
[35] | Schoenberg M;Sen P N .Properties of a Periodically Stratified A- coustic Half-Space and Its Relation to a Biot Fluid[J].Journal of The Acoustical Society of America,1983,73:61-67. |
[36] | National Science Foundation of ChinaPhysics Discipline Report[M].北京:科学出版社,2008:332-335. |
[37] | Pendry, JB;Schurig, D;Smith, DR .Controlling electromagnetic fields[J].Science,2006(5781):1780-1782. |
[38] | Schurig D;Mock JJ;Justice BJ;Cummer SA;Pendry JB;Starr AF;Smith DR .Metamaterial electromagnetic cloak at microwave frequencies[J].Science,2006(5801):977-980. |
[39] | WENSHAN CAI;UDAY K. CHETTIAR;ALEXANDER V. KILDISHEV;VLADIMIR M. SHALAEV .Optical cloaking with metamaterials[J].Nature photonics,2007(4):224-227. |
[40] | Alu A;Engheta N .Multifrequency optical invisibility cloak with layered plasmonic shells[J].Physical review letters,2008(11):113901-1-113901-4-0. |
[41] | Ulf Leonhardt;Tomas Tyc .Broadband Invisibility By Non-euclidean Cloaking[J].Science,2009(5910):110-112. |
[42] | R. Liu;C. Ji;J.J. Mock;J.Y. Chin;T.J. Cui;D.R. Smith .Broadband Ground-plane Cloak[J].Science,2009(5912):366-369. |
[43] | Cummer S A;Schurig D .One Path to Acoustic Cloaking[J].New Journal of Physics,2007,9:45. |
[44] | Chen H Y;Chan C T .Acoustic Cloaking in Three Dimensions U- sing Acoustic Metamaterials[J].Applied Physics Letters,2007,91:183518. |
[45] | Cummer SA;Popa BI;Schurig D;Smith DR;Pendry J;Rahm M;Starr A .Scattering theory derivation of a 3D acoustic cloaking shell[J].Physical review letters,2008(2):024301-1-024301-4-0. |
[46] | Zhou XM;Hu GK;Lu TJ .Elastic wave transparency of a solid sphere coated with metamaterials[J].Physical review, B. Condensed matter and materials physics,2008(2):024101-1-024101-8-0. |
[47] | Cheng Y;Yang F;Xu J Y et al.A Muhilayer Structured A- coustic Cloak with Homogeneous Isotropic Materials[J].Applied Physics Letters,2008,92:151913. |
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