Search results for "Physics::Optics"

showing 10 items of 1958 documents

Instability of single-frequency operation in semilinear photorefractive coherent oscillators.

2002

The transition of the single-frequency oscillation of a semilinear photorefractive coherent oscillator for sufficiently large coupling strengths into two-frequency oscillation is predicted and is observed experimentally. The critical value of the coupling strength at which the bifurcation occurs is a function of pump intensity ratio and cavity losses. The supercritical bifurcation in the oscillation spectrum is analogous to the second-order phase transition.

PhysicsPhase transitionOscillationPhysics::OpticsGeneral Physics and AstronomyPhotorefractive effectCritical valueInstabilityCoupling (physics)Quantum mechanicsQuantum electrodynamicsPhase conjugationNonlinear Sciences::Pattern Formation and SolitonsBifurcationPhysical review letters
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Second-order optical phase transition in a semilinear photorefractive oscillator with two counterpropagating pump waves

2002

Soft-mode onset of coherent oscillation is revealed in a semilinear cavity with two counterpropagating pump waves. From the dynamics of the oscillation intensity and the dynamics of the grating decay with the feedback applied, critical behavior is detected: Both the characteristic time of oscillation onset and grating decay time go to infinity exactly at the threshold coupling strength. A conclusion is made about the similarity of this type of oscillator to the second-order phase transition.

PhysicsPhase transitionOscillationPhysics::OpticsStatistical and Nonlinear PhysicsPhotorefractive effectGratingAtomic and Molecular Physics and OpticsOptical pumpingQuantum electrodynamicsQuantum mechanicsPhase conjugationDiffraction gratingRefractive indexJournal of the Optical Society of America B
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Noncritical generation of nonclassical frequency combs via spontaneous rotational symmetry breaking

2016

Synchronously pumped optical parametric oscillators (SPOPOs) are optical cavities containing a nonlinear crystal capable of down-converting a frequency comb to lower frequencies. These have received a lot of attention lately, because their intrinsic multimode nature makes them compact sources of quantum correlated light with promising applications in modern quantum information technologies. In this work we show that SPOPOs are also capable of accessing the challenging but interesting regime where spontaneous symmetry breaking plays a crucial role in the quantum properties of the emitted light, difficult to access with any other nonlinear optical cavity. Apart from opening the possibility of…

PhysicsPhase transitionQuantum PhysicsSpontaneous symmetry breakingRotational symmetryFOS: Physical sciencesPhysics::Optics01 natural sciencesÒptica quàntica010309 opticsFrequency combQuantum mechanics0103 physical sciencesDissipative systemNonclassical lightQuantum information010306 general physicsQuantum Physics (quant-ph)QuantumOptics (physics.optics)Physics - Optics
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Phonoritons as Hybridized Exciton-Photon-Phonon Excitations in a Monolayer h -BN Optical Cavity

2021

[EN] A phonoriton is an elementary excitation that is predicted to emerge from hybridization between exciton, phonon, and photon. Besides the intriguing many-particle structure, phonoritons are of interest as they could serve as functional nodes in devices that utilize electronic, phononic, and photonic elements for energy conversion and thermal transport applications. Although phonoritons are predicted to emerge in an excitonic medium under intense electromagnetic wave irradiation, the stringent condition for their existence has eluded direct observation in solids. In particular, on-resonance, intense pumping schemes have been proposed, but excessive photoexcitation of carriers prevents op…

PhysicsPhononExcitonEuropean researchPhysics::OpticsGeneral Physics and Astronomy01 natural sciences7. Clean energySettore FIS/03 - Fisica Della MateriaCondensed Matter::Materials ScienceQuantum mechanicsCavity materials0103 physical sciences010306 general physicsPhysical Review Letters
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Optomechanical systems close to the conservative limit

2017

In dissipative optomechanical systems, the total damping hits negative values at the parametric instability point. This also corresponds to the phonon lasing threshold, where the mechanical resonator enters in the self-induced oscillations regime. This paper shows that the two mentioned phenomena are delayed from each other when the optomechanical systems operate close to their conservative limit, where the mechanical damping is very small. In fact, the total damping can be negative and very small for a while before the phonon lasing happens. As a result, the linearized theory is extended over the negative damping region where the mechanical displacements remain very small. It follows that …

PhysicsPhononPhysics::Optics01 natural sciencesParametric instability010309 opticsResonatorNonlinear systemQuantum mechanics0103 physical sciencesLimit (music)Dissipative system010306 general physicsLasing thresholdMultistabilityPhysical Review A
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On-chip entangled D-level photon states – scalable generation and coherent processing

2018

Exploiting a micro-cavity-based quantum frequency comb, we demonstrate the on-chip generation of high-dimensional entangled quantum states with a Hilbert-space dimensionality larger than 100, and introduce a coherent control approach relying on standard telecommunications components.

PhysicsPhotonElectronic Optical and Magnetic MaterialTheoryofComputation_GENERALPhysics::OpticsSettore ING-INF/02 - Campi Elettromagnetici02 engineering and technologyQuantum entanglementQuantum key distribution021001 nanoscience & nanotechnologyTopologySettore ING-INF/01 - Elettronica01 natural sciences010309 opticsFrequency combMechanics of MaterialsCoherent controlQuantum state0103 physical sciencesQuantum information0210 nano-technologyQuantumConference on Lasers and Electro-Optics
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Observation of two-XUV-photon ionization using harmonic generation from a short, intense laser pulse

1996

We report the observation of a two-photon ionization process in the XUV wavelength regime. In a near-resonant 1 + 1 ionization scheme, Ar atoms are ionized absorbing the 15 eV third harmonic photons produced in a gas jet by the 0.5 ps intense laser pulses of a KrF excimer laser emitting at 248.6 nm. The present demonstration of a non-linear process in the XUV regime reveals feasibility of high-intensity applications utilizing the uniquely high peak power of non-conventional short wavelength radiation sources based on harmonic generation.

PhysicsPhotonExcimer laserbusiness.industrymedicine.medical_treatmentPhysics::OpticsCondensed Matter PhysicsLaserAtomic and Molecular Physics and OpticsAtmospheric-pressure laser ionizationlaw.inventionWavelengthOpticslawExtreme ultravioletIonizationPhysics::Atomic and Molecular ClustersmedicineHigh harmonic generationPhysics::Atomic PhysicsAtomic physicsbusinessJournal of Physics B: Atomic, Molecular and Optical Physics
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Wavelength shift of four-wave mixing bands in photonic crystal fibers pumped in the normal dispersion regime

2011

The generation of correlated photon pairs plays a central role in several quantum mechanics applications, such as quantum information, and cryptography [1]. Correlated photon pairs can be generated inside an optical fiber through the parametric process of degenerated four-wave mixing (FWM) [2]. In this paper we report the results of two different experiments where wavelength shift of FWM bands in normal dispersive PCFs is investigated.

PhysicsPhotonOptical fiberbusiness.industryPhysics::OpticsMolecular physicslaw.inventionFour-wave mixingOpticsParametric processlawDispersion (optics)Quantum informationbusinessPhotonic crystalPhotonic-crystal fiber2011 Conference on Lasers and Electro-Optics Europe and 12th European Quantum Electronics Conference (CLEO EUROPE/EQEC)
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Integrated Generation of High-dimensional Entangled Photon States and Their Coherent Control

2017

Exploiting a frequency-domain approach, we demonstrate the generation of high-dimensional entangled quantum states with a Hilbert-space dimensionality larger than 100 from an on-chip nonlinear microcavity, and introduce a coherent control platform using standard telecommunications components.

PhysicsPhotonParametric oscillators and amplifierPhysics::OpticsQuantum OpticSettore ING-INF/02 - Campi ElettromagneticiQuantum key distributionMode-locked lasersSettore ING-INF/01 - ElettronicaNonlinear systemNonlinear optics four-wave mixingQuantum stateCoherent controlIntegrated OpticQuantum mechanicsCoherent statesPhase modulationCurse of dimensionality
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Frequency chirped continuous-wave sodium laser guide stars: modeling and optimization

2020

We numerically study a method to increase the photon return flux of continuous-wave laser guide stars using one-dimensional atomic cooling principles. The method relies on chirping the laser towards higher frequencies following the change in velocity of sodium atoms due to recoil, which raises atomic populations available for laser excitation within the Doppler distribution. The efficiency of this effect grows with the average number of atomic excitations between two atomic collisions in the mesosphere. We find the parameters for maximizing the return flux and evaluate the performance of chirping for operation at La Palma. According to our simulations, the optimal chirp rate lies between 0.…

PhysicsPhotonPhysics::OpticsStatistical and Nonlinear PhysicsLaser7. Clean energy01 natural sciencesAtomic and Molecular Physics and Opticslaw.invention010309 opticssymbols.namesakeStarsRecoillaw0103 physical sciencesPhysics::Atomic and Molecular ClusterssymbolsChirpContinuous wavePhysics::Atomic PhysicsGuide starAtomic physicsDoppler effectJournal of the Optical Society of America B
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