Flux exclusion superconducting quantum metamaterial: towards quantum-level switchingNanohole array as a lensChanges to the journalThe life and times of the LED — a 100-year historyRay-optics cloaking devices for large objects in incoherent natural light.Flat super-oscillatory lens for heat-assisted magnetic recording with sub-50 nm resolution.Dynamics of light-induced reflectivity switching in gallium films deposited on silica by pulsed laser ablation: errata.Intensity-activated birefringence zero-crossing shift in CuAlSe(2) crystal.Giant nonlinear optical activity in a plasmonic metamaterial.Electromagnetic toroidal excitations in matter and free space.Coherent control of optical polarization effects in metamaterials.The reduction of surface plasmon losses in quasi-suspended graphene.Coherent perfect absorption in deeply subwavelength films in the single-photon regime.Atomic Response in the Near-Field of Nanostructured Plasmonic Metamaterial.Toroidal lasing spaser.Resonant transparency and non-trivial non-radiating excitations in toroidal metamaterialsHolographic free-electron light source.New horizons for nanophotonics.Coherent selection of invisible high-order electromagnetic excitations.From metamaterials to metadevices.Random access actuation of nanowire grid metamaterial.Continuous metal plasmonic frequency selective surfaces.All-Optical Implementation of the Ant Colony Optimization Algorithm."Digitally" addressable focusing of light into a subwavelength hot spot.A magneto-electro-optical effect in a plasmonic nanowire materialElectro-mechanical light modulator based on controlling the interaction of light with a metasurfaceCoherent control of light-matter interactions in polarization standing wavesCorrigendum: A magneto-electro-optical effect in a plasmonic nanowire materialMetadevice for intensity modulation with sub-wavelength spatial resolutionErratum: The reduction of surface plasmon losses in quasi-suspended graphene.Geometries for the coherent control of four-wave mixing in graphene multilayers.Planar super-oscillatory lens for sub-diffraction optical needles at violet wavelengths.Magnetic control of a meta-molecule.Electro-optical control in a plasmonic metamaterial hybridised with a liquid-crystal cell.Diffractive micro bar codes for encoding of biomolecules in multiplexed assays.The Fano resonance in plasmonic nanostructures and metamaterials.Fibre-optic metadevice for all-optical signal modulation based on coherent absorption.Giant Enhancement of Cathodoluminescence of Monolayer Transitional Metal Dichalcogenides Semiconductors.Optical Anapole Metamaterial.Many-Body Subradiant Excitations in Metamaterial Arrays: Experiment and Theory.
P50
Q24607515-749763F5-3835-48F2-96B9-24F457D80FA1Q28284781-160ED046-99DD-4236-9415-50BB62C7502BQ29544676-86504CF1-79E9-4323-A345-5514C3BFA4F5Q30052004-2AE4F57C-EB7C-4389-BC90-2834DF84BF7AQ30557259-D1542E9A-319A-4718-A6F5-3200C7F4186DQ31154517-3A7EB325-7644-4ABA-A6A3-4118B58DCED1Q33307359-F9F3AB20-FF6B-4D60-A2A9-63A423111EECQ33505573-E7D90CFA-D060-4103-8BA4-34B49C5E615DQ34269902-C9FDBD8D-A31A-4643-B3FE-9665134BF6EEQ34515280-1849B2BC-310F-4C4C-83D6-4C87AE1104B2Q35160452-3255C874-6D55-46B0-8B89-6A279859255DQ35574845-F7281445-C582-4C4D-8281-9D3A909F89B1Q35681763-F82EBB45-62AB-4B58-9866-0362C8DE2C1EQ35971333-37CA1D61-8237-4FC1-A4E1-99305DA6597EQ36593488-4B978AC7-C61D-4739-B6C5-1D512612C58FQ37232898-567B3005-0D88-4826-855D-5FFD4AD50932Q37486974-67322852-B4CC-4460-933D-5424C6C7A28CQ37660719-D7E39DB8-1FF3-4AA0-B5E3-593E00CB9BE8Q37704553-CF03290D-3920-42C6-9068-877E7F1F10F1Q38054455-0A35E4DF-2BC9-4287-8E4B-27BA0AF2B399Q38798806-C58421A5-E2AD-4097-8DB0-6E1FF8A96D35Q39255708-DCAF25F1-CAC8-41AD-BA77-92F9021A53B5Q39738348-1F9725A1-DED4-4BDA-9BA8-39F2DC265473Q40028198-0E6F5BF0-E006-4E7F-A627-734F525759CEQ40344064-9A58232F-9136-4DB2-A07B-58BBC8D503D1Q41019867-83FD9031-7352-4F7B-BA54-B37526917B10Q42040420-357B7494-A153-4640-83DA-30776E64F068Q42321458-E31CE4C0-643E-448C-AE25-9C4569E7100EQ42366341-9C2A2AC4-C662-4F48-B7A8-EA9C1F70D603Q42412222-29D303CC-4CC6-4380-A507-C624BC7BAD1DQ42594371-3BBB146B-3DBF-4056-AEFB-98AEA3CE4E00Q42872837-424B8271-3305-467C-9C0A-3B57191AE0C5Q43530398-308346CA-4CB4-47AE-91EA-334A30C1BCDAQ44966824-A31158E1-EE8E-42BC-A3AB-6CA099F66434Q46756476-1F1FE423-0DA5-42E4-8D10-66E0A02A256BQ46841664-92A25BA9-7B91-4156-8AF5-97E0CF25A8C4Q47564043-72D6DC29-ACF1-41C3-BD5B-67A7741CDD4AQ47652054-2A4528FA-3B6D-40B5-B491-53E1AF5ECBFDQ48153682-CFB4BA92-99A5-4B37-9642-E138C71D0F73Q49825697-FFDA4EAD-96F1-45C3-BAD4-720E8E278A3F
P50
description
British scientist
@en
British scientist
@en-ca
British scientist
@en-gb
En poste : Department of physics, University of Southampton, GB (en 1995)
@fr
academisch docent
@nl
científico británico
@es
հետազոտող
@hy
عالم بريطاني
@ar
name
Nikolay I Zheludev
@ast
Nikolay I. Zheludev
@en
Nikolay I. Zheludev
@fr
Nikolay I. Zheludev
@sl
Nikolay Zheludev
@es
Nikolay Zheludev
@nl
Жёлудев, Николай Иванович
@ru
type
label
Nikolay I Zheludev
@ast
Nikolay I. Zheludev
@en
Nikolay I. Zheludev
@fr
Nikolay I. Zheludev
@sl
Nikolay Zheludev
@es
Nikolay Zheludev
@nl
Жёлудев, Николай Иванович
@ru
altLabel
N I Zheludev
@en
N Zheludev
@en
N. I. Zheludev
@en
N. Zheludev
@en
N.I. Želudev
@en
Nikolaj Ivanovič Želudev
@en
Nikolay I Zheludev
@en
Nikolay I Zheludev
@es
Nikolay I Zheludev
@nl
Nikolay I Zheludev
@sl
prefLabel
Nikolay I Zheludev
@ast
Nikolay I. Zheludev
@en
Nikolay I. Zheludev
@fr
Nikolay I. Zheludev
@sl
Nikolay Zheludev
@es
Nikolay Zheludev
@nl
Жёлудев, Николай Иванович
@ru