Search results for "Surface plasmon polariton"

showing 10 items of 113 documents

Polymer-metal plasmonic waveguide : passive and active components for integrated photonics

2009

Dielectric loaded surface plasmon polariton waveguides (DLSPPWs) enable transmission at a sub-wavelength scale of both electrical and plasmonic (optical waves at the interface between a metal and a dielectric) signals in the same circuitry. Moreover, the use of a polymer as the dielectric load enables the functionalization of DLSPPWs. Therefore, this configuration is of great interest for integrated photonic applications. However, DLSPPWs suffer strong losses due to dissipation into the metal film. We address here the possibility of compensating the losses using a configuration analogous to an optical amplifier. We first set theoretical (effective index model), numerical (differential metho…

Microscopie à fuites radiativesGain optiquePhotonique intégrée[PHYS.PHYS]Physics [physics]/Physics [physics]Leakage Radiation Microscopy (LRM)Integrated photonicsEffective index modelDifferential methodMéthode de la fonction de GreenOptical gainGreen's function method[ PHYS.PHYS ] Physics [physics]/Physics [physics]Stimulated emission of surface plasmon polaritonplan image et plan de FourierModèle de l'indice effectifDielectric Loaded Surface Plasmon Polariton Waveguide (DLSPPW)Surface Plasmon Polariton (SPP)imaging plane and Fourier planeGuide plasmonique induit par un ruban diélectrique[PHYS.PHYS] Physics [physics]/Physics [physics]Plasmon-polariton de surfaceSPASERMéthode différentielleEmission stimulée de plasmon-polariton de surface
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Launching propagating surface plasmon polaritons by a single carbon nanotube dipolar emitter.

2011

International audience; We report on the excitation of propagating surface plasmon polaritons in thin metal films by a single emitter. Upon excitation in the visible regime, individual semiconducting single-walled carbon nanotubes are shown to act as directional near-infrared point dipole sources launching propagating surface plasmons mainly along the direction of the nanotube axis. Plasmon excitation and propagation is monitored in Fourier and real space by leakage radiation microscopy and is modeled by rigorous theoretical calculations. Coupling to plasmons almost completely reshapes the emission of nanotubes both spatially and with respect to polarization as compared to photoluminescence…

NanotubeMaterials scienceLightPhysics::OpticsBioengineering02 engineering and technologyCarbon nanotube7. Clean energy01 natural sciencesMolecular physicslaw.invention010309 opticsCondensed Matter::Materials Sciencelaw0103 physical sciencesMaterials TestingScattering RadiationGeneral Materials ScienceComputer Simulation[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicsParticle SizePlasmonbusiness.industryMechanical EngineeringSurface plasmonGeneral ChemistrySurface Plasmon Resonance021001 nanoscience & nanotechnologyCondensed Matter PhysicsPolarization (waves)Surface plasmon polaritonNanostructuresOptical properties of carbon nanotubesModels ChemicalMetalsOptoelectronics[ SPI.NANO ] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics0210 nano-technologybusinessExcitationNano letters
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Surface plasmon circuitry in opto-electronics

2012

This tutorial reviews the physics of surface plasmon circuitry in order to bring to the fore recently demonstrated applications of surface plasmon in optoelectronics such as on-board optical interconnects or routing in datacom networks.

Optical data processingbusiness.industrySurface plasmonNear-field opticsNanophotonicsPhysics::OpticsSurface plasmon polaritonComputer Science::Hardware ArchitectureComputer Science::Emerging TechnologiesPhysics::Atomic and Molecular ClustersOptoelectronicsIntegrated opticsbusinessPlasmon
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Active plasmonics in WDM traffic switching applications

2012

With metal stripes being intrinsic components of plasmonic waveguides, plasmonics provides a "naturally" energy-efficient platform for merging broadband optical links with intelligent electronic processing, instigating a great promise for low-power and small-footprint active functional circuitry. The first active Dielectric-Loaded Surface Plasmon Polariton (DLSPP) thermo-optic (TO) switches with successful performance in single-channel 10 Gb/s data traffic environments have led the inroad towards bringing low-power active plasmonics in practical traffic applications. In this article, we introduce active plasmonics into Wavelength Division Multiplexed (WDM) switching applications, using the …

Optical fiberComputer scienceTRANSMISSIONTransducersSilicon on insulator02 engineering and technology01 natural sciencesMultiplexingArticlelaw.invention010309 opticsMetalPOWER THERMOOPTICAL SWITCHlawWavelength-division multiplexing0103 physical sciencesElectronic engineeringFiber Optic TechnologySurface plasmon resonanceSILICON-ON-INSULATORPlasmonElectronic circuitMultidisciplinaryCHIPReproducibility of ResultsEquipment DesignSurface Plasmon ResonancePERFORMANCE021001 nanoscience & nanotechnologyChipSurface plasmon polaritonInterferometryWavelengthInterferometryTransducerPlasmonic waveguidevisual_artTelecommunicationsvisual_art.visual_art_mediumPOLARITON WAVE-GUIDES0210 nano-technology
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Excitation of plasmonic nanoantennas by nonresonant and resonant electron tunnelling.

2016

A rigorous theory of photon emission accompanied inelastic tunnelling inside the gap of plasmonic nanoantennas has been developed. The disappointingly low efficiency of the electrical excitation of surface plasmon polaritons in these structures can be increased by orders of magnitude when a resonant tunnelling structure is incorporated inside the gap. Resonant tunnelling assisted surface plasmon emitter may become a key element in future electrically-driven nanoplasmonic circuits.

Orders of magnitude (temperature)FOS: Physical sciencesPhysics::Optics02 engineering and technologyElectron01 natural sciences0103 physical sciencesMesoscale and Nanoscale Physics (cond-mat.mes-hall)Physics::Atomic and Molecular ClustersGeneral Materials Science010306 general physicsQuantum tunnellingPlasmonCommon emitterPhysicsCondensed Matter - Mesoscale and Nanoscale Physicsbusiness.industrySurface plasmon021001 nanoscience & nanotechnologySurface plasmon polariton3. Good healthOptoelectronics0210 nano-technologybusinessExcitationOptics (physics.optics)Physics - OpticsNanoscale
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In-plane remote photoluminescence excitation of carbon nanotube by propagating surface plasmon

2012

International audience; In this work, we demonstrate propagating surface plasmon polariton (SPP) coupled photoluminescence (PL) excitation of single-walled carbon nanotube (SWNT). SPPs were launched at a few micrometers from individually marked SWNT, and plasmon-coupled PL was recorded to determine the efficiency of this remote in-plane addressing scheme. The efficiency depends upon the following factors: (i) longitudinal and transverse distances between the SPP launching site and the location of the SWNT and (ii) orientation of the SWNT with respect to the plasmon propagation wave vector (k(SPP)). Our experiment explores the possible integration of carbon nanotubes as a plasmon sensor in p…

POLARITONSMaterials sciencePhotoluminescenceNanophotonicsPhysics::Optics02 engineering and technologyCarbon nanotube01 natural scienceslaw.inventionCondensed Matter::Materials ScienceOpticslaw0103 physical sciencesPhotoluminescence excitation010306 general physicsPlasmonbusiness.industryCondensed Matter::OtherSurface plasmon021001 nanoscience & nanotechnologyCondensed Matter::Mesoscopic Systems and Quantum Hall Effect540Surface plasmon polaritonAtomic and Molecular Physics and Optics0210 nano-technologybusinessLocalized surface plasmon
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A coupled lossy local-mode theory description of a plasmonic tip

2012

International audience; We investigate power propagation in a metal-coated tapered optical fiber. We analyze in detail the conversion from the fiber core guided mode to a surface plasmon polariton (SPP) confined at the tip apex. To this aim, we adapt coupled local-mode theory to include lossy modes. Two distinct regimes are identified. In the case of thin metal coating, a strong coupling regime occurs between a core guided mode and a SPP with good conversion efficiency. In the case of thick metal coating, a very weak coupling occurs. Finally, energy confinement and the role of Joule losses are discussed in the near-infrared and visible ranges. Moreover, the coupled equations derived for loc…

POLARITONSOptical fiberGeneral Physics and AstronomyPhysics::Optics02 engineering and technologyengineering.materialLossy compression01 natural scienceslaw.invention010309 opticsWAVE-GUIDESOpticsCoatinglaw0103 physical sciencesEXCITATIONFIELDPlasmonPhysicsCOMPLEXMathematical modelbusiness.industryEnergy conversion efficiency021001 nanoscience & nanotechnologySurface plasmon polaritonLIGHTengineeringStrong couplingOptoelectronics0210 nano-technologybusiness
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Efficient unidirectional nanoslit couplers for surface plasmons

2007

5 pages, 4 figures.

POLARITONSTRANSMISSIONFOS: Physical sciencesGeneral Physics and Astronomy02 engineering and technologyMETAL-FILMS01 natural sciencesNoise (electronics)010309 opticsOptics0103 physical sciencesEXCITATIONPolariton[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicsPlasmonPhysicsCoupling[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics][ PHYS.PHYS.PHYS-OPTICS ] Physics [physics]/Physics [physics]/Optics [physics.optics]business.industrySurface plasmonBragg's lawGRATINGS021001 nanoscience & nanotechnologyRaySurface plasmon polaritonCondensed Matter - Other Condensed Matter[SPI.OPTI]Engineering Sciences [physics]/Optics / PhotonicOptoelectronics[ SPI.NANO ] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[ SPI.OPTI ] Engineering Sciences [physics]/Optics / Photonic0210 nano-technologybusinessNANOHOLESOther Condensed Matter (cond-mat.other)Optics (physics.optics)GENERATIONPhysics - Optics
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Plasmon-induced slow aging of exciton generation and dissociation for stable organic solar cells

2016

Fast degradation is a major issue with organic photovoltaics (OPVs). Integrating plasmonics with OPVs has improved their efficiency; however, the stability effects are unknown. We demonstrate that plasmonic effects can improve the lifetime and efficiency. The aging effects on charge carrier generation and transport are investigated. Confocal time-resolved photoluminescence of Au nanoparticle (NP) doped polymer blend was performed to understand the plasmonic effects on excited-state dynamics. Hot exciton generation is observed directly at the Au-NP surface, which contributed to achieving a nearly perfect exciton dissociation yield. We found that slow aging of the plasmonic effect and the hot…

PhotoluminescenceMaterials scienceOrganic solar cellbusiness.industryExcitonPhysics::Optics02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesSurface plasmon polaritonAtomic and Molecular Physics and Optics0104 chemical sciencesElectronic Optical and Magnetic MaterialsSolar cell efficiencyPhysics::Atomic and Molecular ClustersOptoelectronicsCharge carrierSurface plasmon resonance0210 nano-technologybusinessPlasmonOptica
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Submicrometer in-plane integrated surface plasmon cavities.

2007

International audience; The optical properties of in-plane integrated surface plasmon polariton (SPP) cavities comprised of a thin film area sandwiched between two one-dimensional Bragg SPP mirrors are investigated numerically and experimentally. We discuss the resonance condition of these cavities, and we analyze in details the physical origin of the dispersion of this resonance. On the basis of numerical results, we show that in-plane SPP cavities can be used to achieve local SPP field enhancement and antireflecting SPP layers. The numerical results are compared to near-field optical images recorded by operating a photon scanning tunneling microscope. From the near-field images recorded o…

PhotonMaterials sciencePOLARITONQuantitative Biology::Tissues and OrgansBAND-GAPPhysics::OpticsBioengineering02 engineering and technologyPROPAGATION01 natural scienceslaw.invention010309 opticsOpticslaw0103 physical sciencesPolaritonGeneral Materials ScienceThin film[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicsLocal fieldFORMULATIONCOUPLED-WAVE METHOD[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics][ PHYS.PHYS.PHYS-OPTICS ] Physics [physics]/Physics [physics]/Optics [physics.optics]business.industryTM POLARIZATIONMechanical EngineeringSurface plasmonResonanceGRATINGSGeneral Chemistry021001 nanoscience & nanotechnologyCondensed Matter PhysicsSurface plasmon polaritonCRYSTALSLIGHT[SPI.OPTI]Engineering Sciences [physics]/Optics / Photonic[ SPI.NANO ] Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics[ SPI.OPTI ] Engineering Sciences [physics]/Optics / PhotonicScanning tunneling microscope0210 nano-technologybusinessNano letters
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