Search results for " photonic crystals"

showing 8 items of 8 documents

Parametric Solitons in Two-Dimensional Lattices of Purely Nonlinear Origin

2008

We demonstrate spatial solitons via twin-beam second-harmonic generation in hexagonal lattices realized by poling lithium niobate planar waveguides. These simultons can be steered by acting on power, direction, and wavelength of the fundamental frequency input.

Parametric solitonPhysicsTA1501business.industryPolingLithium niobatePhysics::OpticsGeneral Physics and AstronomyFundamental frequencyPower (physics)WavelengthNonlinear systemchemistry.chemical_compoundOpticsPlanarchemistryQuantum mechanicsNonlinear photonic crystalsbusinessNonlinear Sciences::Pattern Formation and SolitonsParametric statisticsPhysical Review Letters
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Spatial Solitons in Quadratic 2D Nonlinear Photonic Crystals

2007

We report on the first investigations into parametric solitary-wave formation in 2D nonlinear photonic crystals and present experimental results obtained in an hexagonally poled LiNbO3 waveguide designed for twin-beam second harmonic generation at telecom wavelengths.

Physicsbusiness.industryLithium niobatePhysics::OpticsNonlinear opticsResonanceSecond-harmonic generationWaveguide (optics)WavelengthNonlinear systemchemistry.chemical_compoundOpticschemistryOptoelectronicsnonlinear optics photonic crystals spatial solitons waveguides lithium niobatebusinessNonlinear Sciences::Pattern Formation and SolitonsPhotonic crystal2007 9th International Conference on Transparent Optical Networks
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Light self-confinement via second harmonic generation in a 2D nonlinear photonic crystal waveguide

2007

Spatial solitary waves induced by quadratic nonlinearities have been the subject of many theoretical and experimental investigations in the last decade, with extensive studies being devoted to soliton formation in 1D nonlinear photonic crystals (NPC) such as PPLN (periodically poled LiNbO3). Here we present results on a new class of (1 + 1)D spatial solitary waves, the first examples of quadratic self-confinement in a 2D NPC.

PhysicsSecond-Harmonic Generationbusiness.industryPhysics::OpticsSecond-harmonic generationNonlinear opticsSoliton (optics)law.inventionNonlinear systemOpticsQuadratic equationlawNonlinear Photonic CrystalsNonlinear photonic crystalLight self-confinementbusinessNonlinear Sciences::Pattern Formation and SolitonsWaveguidePhotonic crystal2007 European Conference on Lasers and Electro-Optics and the International Quantum Electronics Conference
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Functional Opals from Reactive Polymers: Complex Structures, Sensors, and Modified Photoluminescence

2007

This paper describes the synthesis and properties of functional opal structures, so-called colloidal photonic crystals (CPCs), from a variety of reactive polymers. Photoprocessable opals are presented as well as opals with incorporated smart defect layers that can be actively addressed by external stimuli. In addition, opals with functional bio-macromolecular defects have been developed. They present a new class of materials for optical biomonitoring through shifts of the induced photonic defect mode. Strong modification of photoluminescence according to the photonic bandstructure is observed from opals with embedded exclusively luminescent defect layer.

chemistry.chemical_classificationMaterials sciencePhotoluminescencePolymers and Plasticsbusiness.industryOrganic ChemistryNanotechnologyPolymerColloidal crystalCondensed Matter PhysicsColloidal photonic crystalsOPALS (Ogren Plant Allergy Scale)chemistryMaterials ChemistryPhotonicsbusinessLuminescencePhotonic crystalMacromolecular Symposia
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Extraordinary tuning of a nanocavity by a near-field probe

2011

Abstract We report here an experimental observation of an extraordinary near-field interaction between a local probe and a small-volume solid-state nanocavity. We directly compare the normally observed near-field interaction regime driven by the perturbation theory and then report the extraordinary interaction regime. Subsequently, we show that the cavity can take up to 2 min to recover from this interaction after removing the probe and that leads to an extraordinary blue-shift of the cavity resonance wavelength (∼15 nm) which depends on the probe motion above the cavity and not the position. The reasons for this effect are not fully understood yet but we try to give some explanations.

Anomalous regimeSilicon photonicsPhysics::OpticsNear and far fieldNear-field opticsTuningPhotonic crystalsOpticsPosition (vector)Atomic and Molecular PhysicsElectronicNanotechnologyOptical and Magnetic MaterialsPerturbation theoryExtraordinary regimeElectrical and Electronic EngineeringOptomechanicsComputingMilieux_MISCELLANEOUSPhotonic crystalPhysicsSilicon photonicsbusiness.industryNear-field opticsCondensed Matter PhysicsAtomic and Molecular Physics and OpticsOptomechanicsElectronic Optical and Magnetic MaterialsWavelengthHardware and ArchitectureQuantum electrodynamicsAnomalous regime; Extraordinary regime; Microcavity; Nanotechnology; Near-field optics; Optomechanics; Photonic crystals; Silicon photonics; Tuning; Electronic Optical and Magnetic Materials; Atomic and Molecular Physics and Optics; Condensed Matter Physics; Hardware and Architecture; Electrical and Electronic Engineeringand OpticsbusinessMicrocavity
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Redox-Tunable Defects in Colloidal Photonic Crystals

2005

Electroactive materialsCrystallographyMaterials scienceMechanics of MaterialsMechanical EngineeringGeneral Materials ScienceNanotechnologyRedoxColloidal photonic crystalsRedox ActivityPhotonic crystalAdvanced Materials
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Control of spontaneous emission of a single quantum emitter through a time-modulated photonic-band-gap environment

2017

We consider the spontaneous emission of a two-level quantum emitter, such as an atom or a quantum dot, in a modulated time-dependent environment with a photonic band gap. An example of such an environment is a dynamical photonic crystal or any other environment with a bandgap whose properties are modulated in time, in the effective mass approximation. After introducing our model of dynamical photonic crystal, we show that it allows new possibilities to control and tailor the physical features of the emitted radiation, specifically its frequency spectrum. In the weak coupling limit and in an adiabatic case, we obtain the emitted spectrum and we show the appearance of two lateral peaks due to…

PhysicsQuantum PhysicsBand gapFOS: Physical sciences02 engineering and technologyRadiative processes Structured environments Spontaneous emission Photonic crystals021001 nanoscience & nanotechnology01 natural sciences3. Good healthQuantum dot0103 physical sciencesAtomRadiative transferDensity of statesSpontaneous emissionAtomic physics010306 general physics0210 nano-technologyAdiabatic processQuantum Physics (quant-ph)Photonic crystal
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Resonance interaction energy between two entangled atoms in a photonic bandgap environment

2018

We consider the resonance interaction energy between two identical entangled atoms, where one is in the excited state and the other in the ground state. They interact with the quantum electromagnetic field in the vacuum state and are placed in a photonic-bandgap environment with a dispersion relation quadratic near the gap edge and linear for low frequencies, while the atomic transition frequency is assumed to be inside the photonic gap and near its lower edge. This problem is strictly related to the coherent resonant energy transfer between atoms in external environments. The analysis involves both an isotropic three-dimensional model and the one-dimensional case. The resonance interaction…

Quantum decoherenceScienceVacuum stateFOS: Physical sciences01 natural sciencesResonance (particle physics)Article010305 fluids & plasmasPhotonic bandgap materialsDispersion relation0103 physical sciencesSpontaneous emissionPhotonic crystal010306 general physicsPhysicsQuantum PhysicsMultidisciplinaryQRInteraction energyResonance dipole-dipole interactionExcited stateMedicineResonance dipole-dipole interaction; Photonic crystals; Photonic bandgap materialsAtomic physicsQuantum Physics (quant-ph)Ground state
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