Robustness of Acoustic Scattering Cancellation to Parameter Variations
暂无分享,去创建一个
Claudia Guattari | Alessandro Toscano | Filiberto Bilotti | Roberto De Lieto Vollaro | Gabriele Battista | Paola Gori | Luca Evangelisti | Carmine Basilicata | C. Guattari | F. Bilotti | L. Evangelisti | C. Basilicata | Gabriele Battista | A. Toscano | P. Gori | R. Vollaro
[1] A. Alú,et al. Mantle cloak: Invisibility induced by a surface , 2009 .
[2] David R. Smith,et al. Controlling Electromagnetic Fields , 2006, Science.
[3] F Bilotti,et al. Design of Miniaturized Narrowband Absorbers Based on Resonant-Magnetic Inclusions , 2011, IEEE Transactions on Electromagnetic Compatibility.
[4] A. Alú,et al. Mantle cloaking using thin patterned metasurfaces , 2011 .
[5] S. Cummer,et al. One path to acoustic cloaking , 2007 .
[6] Alessandro Toscano,et al. Analytical Model of a Metasurface Consisting of a Regular Array of Sub-Wavelength Circular Holes in a Metal Sheet , 2011 .
[7] Sergei A. Tretyakov,et al. An analytical model of metamaterials based on loaded wire dipoles , 2003 .
[8] A. Monti,et al. Overcoming Mutual Blockage Between Neighboring Dipole Antennas Using a Low-Profile Patterned Metasurface , 2012, IEEE Antennas and Wireless Propagation Letters.
[9] Sheng,et al. Locally resonant sonic materials , 2000, Science.
[10] Filiberto Bilotti,et al. An SRR based microwave absorber , 2006 .
[11] Ari Sihvola,et al. Electromagnetic mixing formulas and applications , 1999 .
[12] Andrea Alù,et al. Anomolous Properties of Scattering from Cavities Partially Loaded With Double-Negative or Single-Negative Materials , 2005 .
[13] A. Alú,et al. Invisibility and Cloaking Based on Scattering Cancellation , 2012, Advanced materials.
[14] A. Toscano,et al. Equivalent-Circuit Models for the Design of Metamaterials Based on Artificial Magnetic Inclusions , 2007, IEEE Transactions on Microwave Theory and Techniques.
[15] A. Alú,et al. Plasmonic cloaking and scattering cancelation for electromagnetic and acoustic waves , 2011 .
[16] F. Bilotti,et al. Optical cloaking of cylindrical objects by using covers made of core-shell nanoparticles. , 2011, Optics letters.
[17] Alessandro Toscano,et al. INDUCTIVE TRI-BAND DOUBLE ELEMENT FSS FOR SPACE APPLICATIONS , 2011 .
[18] S. Tretyakov,et al. Electromagnetic cloaking with metamaterials , 2009 .
[19] Andrea Alù,et al. REVIEW ARTICLE: Plasmonic and metamaterial cloaking: physical mechanisms and potentials , 2008 .
[20] Jensen Li,et al. Double-negative acoustic metamaterial. , 2004, Physical review. E, Statistical, nonlinear, and soft matter physics.
[21] N. Engheta,et al. Subwavelength Planar Leaky-Wave Components With Metamaterial Bilayers , 2007, IEEE Transactions on Antennas and Propagation.
[22] F. Bilotti,et al. Design of Miniaturized Metamaterial Patch Antennas With $\mu$-Negative Loading , 2008, IEEE Transactions on Antennas and Propagation.
[23] Ping Sheng,et al. Acoustic metamaterial panels for sound attenuation in the 50–1000 Hz regime , 2010 .
[24] L. Sevgi,et al. Metamaterials: Definitions, properties, applications, and FDTD‐based modeling and simulation (Invited paper) , 2012 .
[25] Pavel A. Belov,et al. Subwavelength metallic waveguides loaded by uniaxial resonant scatterers. , 2005 .
[26] C. Papas. Theory of electromagnetic wave propagation , 1965 .
[27] F. Bilotti,et al. Electromagnetic cloaking devices for TE and TM polarizations , 2008 .
[28] A. Norris. Acoustic cloaking theory , 2008, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences.
[29] N. Engheta,et al. Achieving transparency with plasmonic and metamaterial coatings. , 2005, Physical review. E, Statistical, nonlinear, and soft matter physics.