about
Applications of Hyperbolic Metamaterial SubstratesExperiments on Elastic Cloaking in Thin PlatesTransformation electronics: Tailoring the effective mass of electronsMacroscopic invisibility cloaking of visible lightAcoustic metamaterials: From local resonances to broad horizonsOn cosmology in the laboratory.Transformation optics beyond the manipulation of light trajectories.Experiments on cloaking in optics, thermodynamics and mechanics25th anniversary article: ordered polymer structures for the engineering of photons and phonons.Invisible metallic mesh.Transformation seismology: composite soil lenses for steering surface elastic Rayleigh waves.Three-dimensional magnetic cloak working from d.c. to 250 kHzAdiabatic far-field sub-diffraction imaging.Observation of the Zero Doppler EffectCymatics for the cloaking of flexural vibrations in a structured plate.Subwavelength lattice optics by evolutionary designMacroscopic Invisibility Cloak for Visible LightComplementary Media Invisibility Cloak that Cloaks Objects at a Distance Outside the Cloaking ShellMagnifying perfect lens and superlens design by coordinate transformationIdeal Cylindrical Cloak: Perfect but Sensitive to Tiny PerturbationsBroadband Cylindrical Acoustic Cloak for Linear Surface Waves in a FluidIntense Nonlinear Magnetic Dipole Radiation at Optical Frequencies: Molecular Scattering in a Dielectric LiquidCylindrical Invisibility Cloak with Simplified Material Parameters is Inherently VisibleMetamaterials: Ideal focusOptical negative refraction in bulk metamaterials of nanowiresOptical properties of drug metabolites in latent fingermarksGuiding SPPs with PT-symmetryExperimental Realization of Extreme Heat Flux Concentration with Easy-to-Make Thermal MetamaterialsAnalogue GravityQuantized chiral anomaly materials cloakEffect of compressibility and non-uniformity in flow on the scattering pattern of acoustic cloak.Band structure engineered layered metals for low-loss plasmonicsFlexible and compact hybrid metasurfaces for enhanced ultra high field in vivo magnetic resonance imaging.Design and demonstration of an underwater acoustic carpet cloakAcoustic wave and eikonal equations in a transformed metric space for various types of anisotropy.Spectral effectiveness of engineered thermal cloaks in the frequency regimeEnhancing the sensitivity of magnetic sensors by 3D metamaterial shells.Inverse heat mimicking of given objectsAcoustic wave science realized by metamaterials.Non-blind acoustic invisibility by dual layers of homogeneous single-negative media.
P2860
Q21285064-8B892446-3449-4EED-9993-3B17DCBCABE4Q21563733-DE35A26C-81DD-4483-BDA6-E9F2246B4B26Q21708333-2EC13EB2-A7BB-413C-9D7A-7E7DF14530D7Q24629273-8C59AA04-CEA7-41CE-9986-382DD4EC2A72Q26765066-F26BF613-9BAF-4306-9D0E-F98560C9A1F6Q26799071-33CD4E46-92B7-4871-BB56-48F3D6CB59B4Q26799075-85D48F49-3A04-4974-867C-BAC61017F88BQ26799084-1E11AB79-874B-4545-8A61-6E0209FB4566Q27011228-F1031ADB-8CB2-4A44-892E-1EC885731FCBQ27316474-B68B33DE-B0E5-4B45-BCEB-BC84F4057EF9Q27317522-783E089E-6912-4F73-9730-61D25F0ACB9FQ27317530-F2D8F5FE-732B-4489-918D-EC7FEC8017FCQ27323301-E574888B-AD34-4D38-9EED-8EFED6C00B94Q27324009-9F783267-69AB-476C-BD54-F746243A153EQ27324103-6C1D233F-0C54-4896-8F28-94DE488FFEB4Q27335203-F1EDFAFE-2D34-41B2-A6EC-5D82D50595A7Q27335573-95A93E5D-17F4-4EA4-B930-3527A76B4957Q27336260-2F07EECA-1EE3-41ED-B7E5-DA696E1D0505Q27342405-5AF89CE3-2C45-4CCF-9F48-62D71EF11EF5Q27349078-19C4B1E5-308A-4DBE-B151-DDB3B677AB69Q27445644-EABEDDD5-3050-45FA-A278-794D9D6484E4Q27454485-269F8BAF-5D14-4A8D-B2C7-398CE486F004Q27455894-31B60A4A-61AA-4E35-A1AF-3BDA66934D19Q28246701-F0EE17EC-0772-40D7-9379-D9303FE3FCB9Q28290889-B750FF4C-1484-4A5E-8F32-A2ACA2705C23Q28601469-B5BE6F74-A4DE-4416-80EE-1EDDC2EE4B20Q28606663-E3D05431-BDB5-4046-8DA8-3144CACD3F10Q28647953-59FC2365-EC70-4B9A-9802-62DBF815C628Q29999909-CDD04508-0828-42AA-99DC-839FD630EEC2Q30354291-50E0954F-11A5-4C63-9266-07338201B333Q30356022-756A67E8-16C6-4A8D-95DF-7227AA229B88Q30356133-468987F0-3B16-46FD-939A-E5DC77DD76BDQ30356178-DB3A806B-53A4-4D84-B78F-5026E6D527DEQ30356423-C1535049-0333-4D4C-BFF6-B7B606687A99Q30359219-0B946EDE-76AE-46E7-A03A-1469CB6BCAF1Q30359485-D6EAA872-61F3-489A-9AA2-0886DDC02681Q30360588-52CFC563-8818-42BB-A3FE-232D3B3FC57CQ30361765-2AA6AB09-3C3F-4BEA-BF60-D4792A319434Q30362722-EC26AC29-D2F2-41BA-B0A3-F1538FE90A7CQ30362918-8E60E227-BAF5-485F-81FE-C19A65EB3F01
P2860
description
2006 nî lūn-bûn
@nan
2006 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Controlling electromagnetic fields
@ast
Controlling electromagnetic fields
@en
Controlling electromagnetic fields
@nl
type
label
Controlling electromagnetic fields
@ast
Controlling electromagnetic fields
@en
Controlling electromagnetic fields
@nl
prefLabel
Controlling electromagnetic fields
@ast
Controlling electromagnetic fields
@en
Controlling electromagnetic fields
@nl
P2093
P3181
P356
P1433
P1476
Controlling electromagnetic fields
@en
P2093
P304
P3181
P356
10.1126/SCIENCE.1125907
P407
P577
2006-06-23T00:00:00Z