Search results for "quant-ph"

showing 10 items of 1378 documents

Floquet theory for temporal correlations and spectra in time-periodic open quantum systems: Application to squeezed parametric oscillation beyond the…

2021

Open quantum systems can display periodic dynamics at the classical level either due to external periodic modulations or to self-pulsing phenomena typically following a Hopf bifurcation. In both cases, the quantum fluctuations around classical solutions do not reach a quantum-statistical stationary state, which prevents adopting the simple and reliable methods used for stationary quantum systems. Here we put forward a general and efficient method to compute two-time correlations and corresponding spectral densities of time-periodic open quantum systems within the usual linearized (Gaussian) approximation for their dynamics. Using Floquet theory we show how the quantum Langevin equations for…

Floquet theoryPhysicsQuantum PhysicsTime periodicComputationParametric oscillationFOS: Physical sciencesFísicaÒpticaOptometria01 natural sciencesSpectral line010305 fluids & plasmasRange (mathematics)0103 physical sciencesRotating wave approximationVisióStatistical physicsQuantum Physics (quant-ph)010306 general physicsQuantum
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Floquet states in dissipative open quantum systems

2019

Abstract We theoretically investigate basic properties of nonequilibrium steady states of periodically-driven open quantum systems based on the full solution of the Maxwell–Bloch equation. In a resonant driving condition, we find that the transverse relaxation, also known as decoherence, significantly destructs the formation of Floquet states while the longitudinal relaxation does not directly affect it. Furthermore, by evaluating the quasienergy spectrum of the nonequilibrium steady states, we demonstrate that Rabi splitting can be observed as long as the decoherence time is as short as one third of the Rabi-cycle. Moreover, we find that Floquet states can be formed even under significant …

Floquet theoryQuantum decoherenceFloquet systemFOS: Physical sciencesNon-equilibrium thermodynamicsField strength02 engineering and technology7. Clean energy01 natural sciencesSettore FIS/03 - Fisica Della MateriaQuantum mechanicsMesoscale and Nanoscale Physics (cond-mat.mes-hall)0103 physical sciences010306 general physicsQuantumPhysicsQuantum PhysicsCondensed Matter - Mesoscale and Nanoscale PhysicsDecoherenceDissipationCondensed Matter::Mesoscopic Systems and Quantum Hall Effect021001 nanoscience & nanotechnologyCondensed Matter PhysicsAtomic and Molecular Physics and OpticsDissipationDissipative systemRelaxation (physics)Quantum Physics (quant-ph)0210 nano-technologyPhysics - OpticsOptics (physics.optics)Journal of Physics B: Atomic, Molecular and Optical Physics
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Quantum dynamics by the constrained adiabatic trajectory method

2011

We develop the constrained adiabatic trajectory method (CATM) which allows one to solve the time-dependent Schr\"odinger equation constraining the dynamics to a single Floquet eigenstate, as if it were adiabatic. This constrained Floquet state (CFS) is determined from the Hamiltonian modified by an artificial time-dependent absorbing potential whose forms are derived according to the initial conditions. The main advantage of this technique for practical implementation is that the CFS is easy to determine even for large systems since its corresponding eigenvalue is well isolated from the others through its imaginary part. The properties and limitations of the CATM are explored through simple…

Floquet theoryQuantum dynamicsFOS: Physical sciences01 natural sciencesSchrödinger equationsymbols.namesakePhysics - Chemical PhysicsQuantum mechanics0103 physical sciences010306 general physicsAdiabatic processChemical Physics (physics.chem-ph)Physics[PHYS]Physics [physics]Quantum PhysicsPartial differential equation010304 chemical physicsComputational Physics (physics.comp-ph)Adiabatic quantum computationAtomic and Molecular Physics and OpticsClassical mechanicssymbolsQuantum Physics (quant-ph)Spectral methodHamiltonian (quantum mechanics)Physics - Computational Physics
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Spectroscopy of Alkali Atoms in Solid Matrices of Rare Gases: Experimental Results and Theoretical Analysis

2022

We present an experimental and theoretical investigation of the spectroscopy of dilute alkali atoms in a solid matrix of inert gases at cryogenic temperatures, specifically Rubidium atoms in a solid Argon or Neon matrix, and related aspects of the interaction energies between the alkali atoms and the atoms of the solid matrix. The system considered is relevant for matrix isolation spectroscopy, and it is at the basis of a recently proposed detector of cosmological axions, exploiting magnetic-type transitions between Zeeman sublevels of alkali atoms in a magnetic field, tuned to the axion mass, assumed in the meV range. Axions are one of the supposed constituents of the dark matter (DM) of t…

Fluid Flow and Transfer ProcessesCondensed Matter::Quantum GasesQuantum PhysicsAtomic Physics (physics.atom-ph)Process Chemistry and Technologymatrix isolation spectroscopy; axion detection; interatomic interactionsGeneral EngineeringFOS: Physical sciencesInteratomic interactionsSettore FIS/03 - Fisica Della MateriaPhysics - Atomic PhysicsComputer Science ApplicationsMatrix isolation spectroscopyAxion detectionPhysics::Atomic and Molecular ClustersGeneral Materials SciencePhysics::Atomic PhysicsQuantum Physics (quant-ph)InstrumentationApplied Sciences; Volume 12; Issue 13; Pages: 6492
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Efficient protocol for qubit initialization with a tunable environment

2017

We propose an efficient qubit initialization protocol based on a dissipative environment that can be dynamically adjusted. Here the qubit is coupled to a thermal bath through a tunable harmonic oscillator. On-demand initialization is achieved by sweeping the oscillator rapidly into resonance with the qubit. This resonant coupling with the engineered environment induces fast relaxation to the ground state of the system, and a consecutive rapid sweep back to off resonance guarantees weak excess dissipation during quantum computations. We solve the corresponding quantum dynamics using a Markovian master equation for the reduced density operator of the qubit-bath system. This allows us to optim…

Flux qubitComputer Networks and CommunicationsQC1-999FOS: Physical sciencesInitialization02 engineering and technologyQuantum channelCOMPUTATIONTopology01 natural sciencesPhase qubitComputer Science::Emerging TechnologiesSuperdense codingQuantum mechanicsMesoscale and Nanoscale Physics (cond-mat.mes-hall)0103 physical sciencesComputer Science (miscellaneous)010306 general physicsDISSIPATIONPhysicsQuantum PhysicsSUPERCONDUCTING QUANTUM BITSERROR-CORRECTIONCondensed Matter - Mesoscale and Nanoscale PhysicsPhysicskvanttitietokoneetCIRCUITAMPLIFICATIONStatistical and Nonlinear PhysicsOne-way quantum computerQuantum PhysicsQA75.5-76.95021001 nanoscience & nanotechnologyqubit initializationSTATETRAPPED IONSComputational Theory and MathematicsQubitElectronic computers. Computer sciencequbitsQuantum Physics (quant-ph)0210 nano-technologyQuantum teleportationnpj Quantum Information
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Teleportation of squeezing: optimization using non-Gaussian resources

2010

We study the continuous-variable quantum teleportation of states, statistical moments of observables, and scale parameters such as squeezing. We investigate the problem both in ideal and imperfect Vaidman-Braunstein-Kimble protocol setups. We show how the teleportation fidelity is maximized and the difference between output and input variances is minimized by using suitably optimized entangled resources. Specifically, we consider the teleportation of coherent squeezed states, exploiting squeezed Bell states as entangled resources. This class of non-Gaussian states includes photon-added and photon-subtracted squeezed states as special cases. At variance with the case of entangled Gaussian re…

GaussianFOS: Physical sciencesQuantum entanglement01 natural sciencesTeleportation010305 fluids & plasmassymbols.namesakeQuantum mechanics0103 physical sciencesStatistical physics010306 general physicsQuantum information sciencePhysicsQuantum PhysicsBell stateCavity quantum electrodynamicsObservableQuantum PhysicsAtomic and Molecular Physics and OpticsCondensed Matter - Other Condensed MattersymbolsQuantum Physics (quant-ph)Quantum teleportationPhysics - OpticsOther Condensed Matter (cond-mat.other)Optics (physics.optics)
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Tunable non-Gaussian resources for continuous-variable quantum technologies

2013

We introduce and discuss a set of tunable two-mode states of continuous-variable systems, as well as an efficient scheme for their experimental generation. This novel class of tunable entangled resources is defined by a general ansatz depending on two experimentally adjustable parameters. It is very ample and flexible as it encompasses Gaussian as well as non-Gaussian states. The latter include, among others, known states such as squeezed number states and de-Gaussified photon-added and photon-subtracted squeezed states, the latter being the most efficient non-Gaussian resources currently available in the laboratory. Moreover, it contains the classes of squeezed Bell states and even more ge…

GaussianFOS: Physical sciencesTopology01 natural sciencesTeleportation010309 opticssymbols.namesakeQuantum mechanics0103 physical sciencesQuantum information010306 general physicsPhysicsBell stateQuantum PhysicsQuantum PhysicsAtomic and Molecular Physics and OpticsQuantum technologyCondensed Matter - Other Condensed MattersymbolsCoherent statesQuantum Physics (quant-ph)Realization (systems)Quantum teleportationOther Condensed Matter (cond-mat.other)Optics (physics.optics)Physics - Optics
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Exact results for accepting probabilities of quantum automata

2001

One of the properties of Kondacs-Watrous model of quantum finite automata (QFA) is that the probability of the correct answer for a QFA cannot be amplified arbitrarily. In this paper, we determine the maximum probabilities achieved by QFAs for several languages. In particular, we show that any language that is not recognized by an RFA (reversible finite automaton) can be recognized by a QFA with probability at most 0.7726...

General Computer ScienceFOS: Physical sciences0102 computer and information sciences02 engineering and technologyUnitary transformationComputer Science::Computational Complexity01 natural sciencesTheoretical Computer ScienceCombinatoricsQuantum measurementFormal languageQuantum computation0202 electrical engineering electronic engineering information engineeringQuantum finite automataMathematicsQuantum computerQuantum PhysicsFinite-state machineMarkov chainExact resultsTransformation (function)010201 computation theory & mathematics020201 artificial intelligence & image processingQuantum Physics (quant-ph)Finite automataComputer Science::Formal Languages and Automata TheoryComputer Science(all)Theoretical Computer Science
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Collective-Mode Enhanced Matter-Wave Optics

2021

International audience; In contrast to light, matter-wave optics of quantum gases deals with interactions even in free space and for ensembles comprising millions of atoms. We exploit these interactions in a quantum degenerate gas as an adjustable lens for coherent atom optics. By combining an interaction-driven quadrupole-mode excitation of a Bose-Einstein condensate (BEC) with a magnetic lens, we form a time-domain matter-wave lens system. The focus is tuned by the strength of the lensing potential and the oscillatory phase of the quadrupole mode. By placing the focus at infinity, we lower the total internal kinetic energy of a BEC comprising 101(37) thousand atoms in three dimensions to …

General Physics and AstronomyKinetic energy01 natural sciences010305 fluids & plasmaslaw.inventionOptics[PHYS.QPHY]Physics [physics]/Quantum Physics [quant-ph]law0103 physical sciencesMagnetic lens010306 general physicsQuantumBose-Einstein CondensateCondensed Matter::Quantum GasesPhysics[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics]business.industryDegenerate energy levelsTemperatureLens (optics)InterferometryAtom opticsCold atoms & matter wavesMatter wavebusinessDelta-Kick CollimationPhysical Review Letters
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Dynamical Casimir-Polder force between an excited atom and a conducting wall

2016

We consider the dynamical atom-surface Casimir-Polder force in the non-equilibrium configuration of an atom near a perfectly conducting wall, initially prepared in an excited state with the field in its vacuum state. We evaluate the time-dependent Casimir-Polder force on the atom, and find that it shows an oscillatory behavior from attractive to repulsive both in time and in space. We also investigate the asymptotic behavior in time of the dynamical force and of related local field quantities, showing that the static value of the force, as obtained by a time-independent approach, is recovered for times much larger than the timescale of the atomic self-dressing, but smaller than the atomic d…

General PhysicsField (physics)Vacuum stateNon-equilibrium thermodynamicsFOS: Physical sciences7. Clean energy01 natural sciencesquant-phQuantum mechanics0103 physical sciencesAtomPhysics::Atomic and Molecular ClustersPhysics::Atomic Physics010306 general physicsLocal field01 Mathematical SciencesPhysicsdispersion interactionsCondensed Matter::Quantum GasesQuantum Physics02 Physical Sciences010308 nuclear & particles physicsDynamical Casimir effectCasimir effectPotsdam Transfer - Zentrum für Gründung Innovation Wissens- und TechnologietransferExcited stateAtomic physics03 Chemical SciencesQuantum Physics (quant-ph)Radioactive decay
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