DIRD_22_Metamaterials_for_Aerospace_Applications

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Contents	Contents
DefinitionofMetamaterials…1
ApplicationstoSub-DiffractionImaging:Super-LensandHyper-Lens•••••••••.••••••••6
ApplicationstoCircuitsandWaveguideMiniaturization:SlowingDownand
ManipulatingElectromagneticPulses(EMP)UsingAdvancedMetamaterials…16
MetamaterialsforEnergyHarvesting…n••••••••••••••••20
NonlinearNon-ReciprocalChiralMetamaterials:ForDevelopingNovelOptical
Isolators	and'''One-Way”MicrowaveMirrors•••••••••••••••••••.•••••.•••••••••••••••••.•••••••••••27
TunableSwltchableMetamaterlals… 11111…:•••••••••••••••••••••30
SummaryandConclusions…31
References… , ••••••••••••••••••••••••••••••••••••••••31
Figures
Figure1.	ExampleofaMetamaterialComponent:TheMagneticSplitRing
	Resonator(SRR)Design…2
Figure2.	ExampleofAnotherMetamaterialComponent:ElectricRingResonator
	(ERR)••••••••••••••••••••••••__… 2
Figure3.	GeometryofOriginalPlanarMetamaterialUnitCells(OE1-0E6)andTheir
	Complements(CEI-CE6)…3
Figure4.	RecentOpticalMetamaterlalsforTelecommunicationWavelengthand
	Mid-InfraredIndefinitePermittivityMaterial…5
FigureS.	SchematicofTheSuper-lensWithn=-lRefractiveIndexCorresponding
	to(SurroundedbyVacuum…7
Figure6.	SchematicoftheSiC-basedSuper-lensWhichIsImagingSub-wavelength
	HolesBuriedUndertheSi02Layer•••••••••••••••••••••••••••••••••••••••••••••••••••••••••• 8
Figure7.	TheoreticalConcepts(leftpanel)andExperimentalImplementation
	(rightpanel)ofanOpticalHyperlensCapableofMagnifyingSub-
	DiffractionObjectstoObservable(largerthanSize••••••••••••••••••••••••••••••••• 9
Figure8.	HyperlensBasedonaConvergingArrayofMetalWires••••••••••••.•••••.•…10
Figure9.	Far-FieldSuper-lens(FSL)BasedonanIndefinitePermittivity
	MetamaterialPlacedBetweentheObjectandtheImage-ReleaSing
	Grating…a.a…12
Figure10.TomographicMulti-BeamMulti-DetectorHolographyofSub-Wavelength
	ObjectsUsingIndefinitePermittivityMedium(IPM)•••••••••••••••••••••••••••12
Figure11.FirstExperimentalDemonstrationofPropagatingSub-DiffractionWaves
	IntheIndefinitePermittivityMedium(IPM)…13
Figure12.Schematicfor2-Beams/2-DetectorsInterferometricMeasurement
	andNumericalSimulation.•••••.•.•..•.••.•.•••••••.•••••••••••••••••••••••••••.••••••••••••14
Figure13.ExperimentalSetupfor2-Beams/2-DetectorsInterferometric
	MeasurementintheLabandPreliminaryExperimentalResults…15

figure	14.SchematicofPulseCompressionInMagnetizedPlasma…16
Figure	15.TrappedRainbow:AWaveguideWithNegativeIndexCoreCanStop
	Light… ,••••••, ••••••••••••••••••••••••••.•17
Figure	16.”PlasmonicMolecule uExhibitingEIT…18
Figure	17.TrueMulti-LayerMetamaterialWithaUnitCellShowninFigure16:
	RadiativeAntenna(SingleMetalStrip)CoupledtoaDarkAntenna
	(TwoPerpendicularMetalBars)…19
Figure	18.”Perfect”Narrow-BandMicrowaveAbsorber…20
Figure	19.Wide-AnglePlasmonicAbsorberBasedonNegativeIndex
	Metamaterial•••••••••.•••••••.••••••.••••••••••••••••• , …111••••‘••••••••••••••••••••••••21
Figure	20.SpecificDesignofaWide-AnglePlasmonicAbsorberBasedonNegative
	IndexMetamaterialOperatingatA=1550nm…22
Figure	21.ExperimentalReflectivityvs.WavelengthandTheoreticalPlotof
	ReflectivityContours.••.•.•••••.•.••••…•…••.•…•..•…•.•..•••••••••.•..••••••..•.•••••23
Figure	22.PreliminaryAttemptstoDesignaBetterAbsorberUsingComplementary
	MetaMaterlals(U-shapedC-MM)…2S
Figure	23.EngineeringtheComplexReflectivityCoefficientUsingtheConceptofa
	MetaMirror… III…26
Figure	24.ExampleofaGenericChiralMetamaterial…28
Figure	25.ExampleofTime-IrreversibilityofLightPropagationInsidetheTwisted
	FiberCore•.•••.•••••••••••••••••••••••••••••••••••••••..•••••••••.•.••••.•••••••.•••••••••••••••••••••29
Figure	26.THzPropertiesofanElectricSplitRingResonator…31

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