Search results for "quantum optic"

showing 10 items of 153 documents

Non-Markovian Dynamics of a Qubit Due to Single-Photon Scattering in a Waveguide

2018

We investigate the open dynamics of a qubit due to scattering of a single photon in an infinite or semi-infinite waveguide. Through an exact solution of the time-dependent multi-photon scattering problem, we find the qubit's dynamical map. Tools of open quantum systems theory allow us then to discuss the general features of this map, find the corresponding non-Linbladian master equation, and assess in a rigorous way its non-Markovian nature. The qubit dynamics has distinctive features that, in particular, do not occur in emission processes. Two fundamental sources of non-Markovianity are present: the finite width of the photon wavepacket and the time delay for propagation between the qubit …

---PhotonWave packetGeneral Physics and AstronomyFOS: Physical sciencesWaveguide QED; open quantum systems; non-Markovianity; quantum optics01 natural sciences010305 fluids & plasmasQuantum mechanics0103 physical sciencesMaster equationMesoscale and Nanoscale Physics (cond-mat.mes-hall)Waveguide (acoustics)quantum optics010306 general physicsQuantumPhysicsQuantum opticsopen quantum systemQuantum PhysicsCondensed Matter - Mesoscale and Nanoscale PhysicsScatteringnon-MarkovianityQubitWaveguide QEDQuantum Physics (quant-ph)Physics - OpticsOptics (physics.optics)
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Framework for complex quantum state generation and coherent control based on on-chip frequency combs

2018

Integrated frequency combs introduce a scalable framework for the generation and manipulation of complex quantum states (including multi-photon and high-dimensional states), using only standard silicon chip and fiber telecommunications components.

010302 applied physicsQuantum opticsPhysicsbusiness.industryFiber (mathematics)Electronic Optical and Magnetic MaterialPhysics::OpticsSettore ING-INF/02 - Campi ElettromagneticiQuantum information processingSettore ING-INF/01 - Elettronica01 natural sciences010309 opticsMechanics of MaterialsCoherent controlQuantum state0103 physical sciencesScalabilitySilicon chipOptoelectronicsCoherent statesbusinessFrontiers in Optics / Laser Science
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Optical quantum information processing and storage

2018

Here we report our recent experimental progresses in optical quantum information processing. In particular, the following topics are included. First, we extend the heralding scheme to multi-mode states and demonstrate heralded creation of qutrit states. Next, we demonstrate storage of single-photon states and synchronized release of them. Then, we demonstrate real-time acquisition of quadrature values of heralded states by making use of an exponentially rising shape of wave-packets. Finally, we demonstrate cluster states in an arbitrarily long chain in the longitudinal direction.

010309 opticsQuantum opticsPhysics0103 physical sciencesStatistical physicsQuantum entanglementQutrit010306 general physicsQuantum information processing01 natural sciencesLong chainQuadrature (astronomy)Longitudinal directionQuantum Communications and Quantum Imaging XVI
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Generation and Coherent Control of Pulsed Quantum Frequency Combs

2018

We present a method for the generation and coherent manipulation of pulsed quantum frequency combs. Until now, methods of preparing high-dimensional states on-chip in a practical way have remained elusive due to the increasing complexity of the quantum circuitry needed to prepare and process such states. Here, we outline how high-dimensional, frequency-bin entangled, two-photon states can be generated at a stable, high generation rate by using a nested-cavity, actively mode-locked excitation of a nonlinear micro-cavity. This technique is used to produce pulsed quantum frequency combs. Moreover, we present how the quantum states can be coherently manipulated using standard telecommunications…

0301 basic medicineDensity matrixOptics and PhotonicsPhotonGeneral Chemical EngineeringSettore ING-INF/01 - ElettronicaGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciencesEngineering0302 clinical medicineQuantum stateQuantum DotsQuantumQCQuantum opticsPhysicsGeneral Immunology and Microbiologybusiness.industryGeneral NeuroscienceNonlinear opticsSettore ING-INF/02 - Campi Elettromagnetici030104 developmental biologyCoherent controlQuantum optics Integrated photonic devices Mode-locked lasers Nonlinear optics Four-wave mixing Frequency combs High- dimensional statesFrequency domainOptoelectronicsbusiness030217 neurology & neurosurgeryJournal of Visualized Experiments
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Machine Learning-Based Classification of Vector Vortex Beams.

2020

Structured light is attracting significant attention for its diverse applications in both classical and quantum optics. The so-called vector vortex beams display peculiar properties in both contexts due to the non-trivial correlations between optical polarization and orbital angular momentum. Here we demonstrate a new, flexible experimental approach to the classification of vortex vector beams. We first describe a platform for generating arbitrary complex vector vortex beams inspired to photonic quantum walks. We then exploit recent machine learning methods -- namely convolutional neural networks and principal component analysis -- to recognize and classify specific polarization patterns. O…

Angular momentumComputer sciencequantum opticquanutm informationphotonicsPrincipal component analysisGeneral Physics and AstronomyFOS: Physical sciencesMachine learningcomputer.software_genre01 natural sciencesConvolutional neural networkSettore FIS/03 - Fisica Della Materiaquant-phPolarization0103 physical sciencesQuantum walk010306 general physicsQuantum opticsorbital angular momentum; machine learning; vector vortex beamsQuantum PhysicsQuantum opticsbusiness.industryVortex flowOptical polarizationVectorsVortexmachine learningConvolutional neural networksArtificial intelligencePhotonicsbusinessQuantum Physics (quant-ph)computerStructured lightPhysical review letters
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Dressed emitters as impurities

2021

Dressed states forming when quantum emitters or atoms couple to a photonic bath underpin a number of phenomena and applications, in particular dispersive effective interactions occurring within photonic bandgaps. Here, we present a compact formulation of the resolvent-based theory for calculating atom-photon dressed states built on the idea that the atom behaves as an effective impurity. This establishes an explicit connection with the standard impurity problem in condensed matter. Moreover, it allows us to formulate and settle in a model-independent context a number of properties previously known only for specific models or not entirely formalized. The framework is next extended to the cas…

Atom-photon bound states quantum optics waveguide-QEDQC1-999FOS: Physical sciencesContext (language use)ImpurityQuantum mechanicsBound statePhysics::Atomic Physicsquantum opticsElectrical and Electronic EngineeringQuantumResolventCommon emitterPhysicsQuantum Physicsphotonic band-gap materials; quantum optics; waveguide-QEDbusiness.industryphotonic band-gap materialsPhysicsAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsConnection (mathematics)waveguide-qedPhotonicsbusinessQuantum Physics (quant-ph)Biotechnology
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Controlling molecular alignment rephasing through interference of Raman-induced rotational coherence

2000

0021-9606; Quantum control over molecular alignment rephasing is experimentally investigated in gaseous CO2. The control process is achieved by illuminating the medium with a pair of pump-pulses separated in time by approximately an integer value of T0=1/8B(0), where B(0) is the rotational constant. Through a Raman-type process, each pulse alone produces rotational coherence leading to a periodic orientational anisotropy. It is the combination of the two pulses that yields to quantum interference, resulting in a modification of this anisotropy probed by a third delayed pulse. The effect is accurately analyzed for different time delays between the two pulses. A theoretical analysis supplies …

CONTROLGeneral Physics and AstronomyRotational transitionTRANSITIONS01 natural sciencesMolecular physicssymbols.namesakeOpticsINDUCED POLARIZATION SPECTROSCOPYTIME-RESOLVED DYNAMICSMULTIPHOTON IONIZATIONSYSTEMSElectric field0103 physical sciencesPhysical and Theoretical ChemistryMolecular alignmentFIELD010306 general physicsAnisotropyPhysicsQuantum optics010304 chemical physicsbusiness.industryWAVE-PACKETSPHOTODISSOCIATIONINDUCED CONTINUUM STRUCTUREsymbolsLASERRotational spectroscopyRaman spectroscopybusinessCoherence (physics)
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Programmable linear quantum networks with a multimode fibre

2019

Reconfigurable quantum circuits are fundamental building blocks for the implementation of scalable quantum technologies. Their implementation has been pursued in linear optics through the engineering of sophisticated interferometers. While such optical networks have been successful in demonstrating the control of small-scale quantum circuits, scaling up to larger dimensions poses significant challenges. Here, we demonstrate a potentially scalable route towards reconfigurable optical networks based on the use of a multimode fibre and advanced wavefront-shaping techniques. We program networks involving spatial and polarisation modes of the fibre and experimentally validate the accuracy and ro…

Computer sciencequantum opticPhysics::OpticsFOS: Physical sciences02 engineering and technology01 natural sciencesSettore FIS/03 - Fisica Della Materia010309 opticsQuantum stateRobustness (computer science)quantum information0103 physical sciencesElectronic engineeringQuantumlinear opticsWavefrontQuantum networkQuantum PhysicsReconfigurability021001 nanoscience & nanotechnologyAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsQuantum technologyScalability0210 nano-technologyQuantum Physics (quant-ph)Optics (physics.optics)Physics - OpticsNature Photonics
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Causality, non-locality and three-body Casimir–Polder energy between three ground-state atoms

2006

The problem of relativistic causality in the time-dependent three-body Casimir–Polder interaction energy between three atoms, initially in their bare ground-state, is discussed. It is shown that the non-locality of the spatial correlations of the electromagnetic field emitted by the atoms during their dynamical self-dressing may become manifest in the dynamical three-body Casimir–Polder interaction energy between the three atoms.

Condensed Matter::Quantum GasesElectromagnetic fieldPhysicsQuantum opticsThree-body dispersion forces.Interaction energyCondensed Matter PhysicsThree-body problemAtomic and Molecular Physics and OpticsMany-body problemCausality (physics)Casimir effectQuantum electrodynamicQuantum mechanicsCausality and non-localityPhysics::Atomic and Molecular ClustersPhysics::Atomic PhysicsGround stateJournal of Physics B: Atomic, Molecular and Optical Physics
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Quantum transport of single neutral atoms

2007

The state-selective (quantum) transport of single neutral atoms stored in a one dimensional optical lattice is a promising technique to implement controlled atomic interaction using coherent cold collisions. This is required in several schemes of quantum information processing. Here, we present a technical implementation of the quantum transport scheme for one, two and more caesium atoms, as well as the manipulation and detection of their internal states.

Condensed Matter::Quantum GasesPhysicsQuantum opticsOptical latticeEnergetic neutral atom1s Slater-type functionchemistry.chemical_elementQuantum transportchemistryCaesiumAtom opticsPhysics::Atomic PhysicsAtomic physicsQuantum2007 European Conference on Lasers and Electro-Optics and the International Quantum Electronics Conference
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