Search results for "Quantum System"

showing 10 items of 266 documents

Dynamical decoupling efficiency versus quantum non-Markovianity

2015

We investigate the relationship between non-Markovianity and the effectiveness of a dynamical decoupling protocol for qubits undergoing pure dephasing. We consider an exact model in which dephasing arises due to a bosonic environment with a spectral density of the Ohmic class. This is parametrised by an Ohmicity parameter by changing which we can model both Markovian and non-Markovian environments. Interestingly, we find that engineering a non-Markovian environment is detrimental to the efficiency of the dynamical decoupling scheme, leading to a worse coherence preservation. We show that each dynamical decoupling pulse reverses the flow of quantum information and, on this basis, we investig…

Dynamical decouplingDephasingnon-Markovianity dynamical decoupling reservoir engineering Ohmic spectra pure dephasing open quantum systemsFOS: Physical sciencesGeneral Physics and Astronomy01 natural sciencesSettore FIS/03 - Fisica Della Materiareservoir engineering010305 fluids & plasmasOhmic spectra0103 physical sciencesStatistical physicsQuantum information010306 general physicsQuantumPhysicsQuantum PhysicsSpectral densitypure dephasingopen quantum systemsnon-Markovianitydynamical decouplingFlow (mathematics)QubitQuantum Physics (quant-ph)Coherence (physics)
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Preserving entanglement and nonlocality in solid-state qubits by dynamical decoupling

2014

In this paper we study how to preserve entanglement and nonlocality under dephasing produced by classical noise with large low-frequency components, as $1/f$ noise, by Dynamical Decoupling techniques. We first show that quantifiers of entanglement and nonlocality satisfy a closed relation valid for two independent qubits locally coupled to a generic environment under pure dephasing and starting from a general class of initial states. This result allows to assess the efficiency of pulse-based dynamical decoupling for protecting nonlocal quantum correlations between two qubits subject to pure-dephasing local random telegraph and $1/f$-noise. We investigate the efficiency of an "entanglement m…

Dynamical decouplingDephasingsuperconducting qubitFOS: Physical sciencesQuantum entanglementEntanglement; superconducting qubits; open quantum systems; quantum controlSquashed entanglementSUPERCONDUCTING CIRCUITSNoise (electronics)Settore FIS/03 - Fisica Della MateriaEntanglementQuantum nonlocalityQuantum mechanicsQuantumPhysicsQuantum Physicsopen quantum systemBELL INEQUALITYQuantum PhysicsCondensed Matter PhysicsElectronic Optical and Magnetic MaterialsQUANTUM-SYSTEMSQubitQuantum Physics (quant-ph)quantum controlSUPERCONDUCTING CIRCUITS; BELL INEQUALITY; QUANTUM-SYSTEMS
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Synthetic electromagnetic knot in a three-dimensional skyrmion

2018

We experimentally simulate a quantum-mechanical particle interacting with knotted electromagnetic fields.

Electromagnetic fieldField (physics)skyrmionsQuantum Hall effect01 natural sciences010305 fluids & plasmasElectromagnetism0103 physical sciencesQuantum systemClassical electromagnetismknotted electromagnetic field structureskvanttifysiikka010306 general physicsQuantumResearch ArticlesSpin-½PhysicsMultidisciplinaryta114Physicssähkömagneettiset kentätBose-Einstein condensatesSciAdv r-articlesCondensed Matter PhysicsMathematics::Geometric TopologyClassical mechanicsResearch ArticleScience Advances
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Nonlocal properties of dynamical three-body Casimir-Polder forces

2005

We consider the three-body Casimir-Polder interaction between three atoms during their dynamical self-dressing. We show that the time-dependent three-body Casimir-Polder interaction energy displays nonlocal features related to quantum properties of the electromagnetic field and to the nonlocality of spatial field correlations. We discuss the measurability of this intriguing phenomenon and its relation with the usual concept of stationary three-body forces.

Electromagnetic fieldPhysicsQuantum PhysicsGeneral Physics and AstronomyFOS: Physical sciencesSpatial field correlationsRelativistic quantum mechanicsCasimir effectQuantization (physics)Open quantum systemQuantum nonlocalityClassical mechanicsQuantum mechanicsNonlocalityThree-body forcePhysics::Atomic and Molecular ClustersPhysics::Atomic PhysicsQuantum dissipationQuantum Physics (quant-ph)Introduction to quantum mechanics
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Berry's phase in Cavity QED: proposal for observing an effect of field quantization

2002

Geometric phases are well known in classical electromagnetism and quantum mechanics since the early works of Pantcharatnam and Berry. Their origin relies on the geometric nature of state spaces and has been studied in many different systems such as spins, polarized light and atomic physics. Recent works have explored their application in interferometry and quantum computation. Earlier works suggest how to observe these phases in single quantum systems adiabatically driven by external classical devices or sources, where, by classical, we mean any system whose state does not change considerably during the interaction time: an intense magnetic field interacting with a spin 1/2, or a birefringe…

Electromagnetic fieldPhysicsQuantum PhysicsVacuumFOS: Physical sciencesSemiclassical physicsAtomic and Molecular Physics and OpticsQuantization of the electromagnetic fieldQuantization (physics)Quantum electrodynamicsQuantum mechanicsfield quantizationAtomQuantum systemBerry connection and curvatureQuantum field theoryQuantum Physics (quant-ph)
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On the validity of non-Markovian master equation approaches for the entanglement dynamics of two-qubit systems

2010

In the framework of the dissipative dynamics of coupled qubits interacting with independent reservoirs, a comparison between non-Markovian master equation techniques and an exact solution is presented here. We study various regimes in order to find the limits of validity of the Nakajima–Zwanzig and the time-convolutionless master equations in the description of the entanglement dynamics. A comparison between the performances of the concurrence and the negativity as entanglement measures for the system under study is also presented.

Entanglement Open quantum systems Non-Markovian master equationsDynamics (mechanics)Markov processConcurrenceQuantum PhysicsQuantum entanglementCondensed Matter PhysicsAtomic and Molecular Physics and Opticssymbols.namesakeExact solutions in general relativityClassical mechanicsQubitMaster equationsymbolsStatistical physicsDissipative dynamicsMathematical PhysicsMathematicsPhysica Scripta
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Large-photon-number limit and the essential singularity in finite quantum electrodynamics

1976

It is shown that the essential singularity in finite quantum electrodynamics can be located by considering only those diagrams with a large number of photons exchanged in the single-fermion loop, without photons emitted and absorbed on a fermion line. (AIP)

Essential singularityPhysicsQuantum opticsOpen quantum systemPhotonHigh Energy Physics::LatticeQuantum mechanicsQuantum electrodynamicsStochastic electrodynamicsCavity quantum electrodynamicsGauge theoryQuantum field theoryPhysical Review D
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Evanescent wave approximation for non-Hermitian Hamiltonians

2020

The counterpart of the rotating wave approximation for non-Hermitian Hamiltonians is considered, which allows for the derivation of a suitable effective Hamiltonian for systems with some states undergoing decay. In the limit of very high decay rates, on the basis of this effective description we can predict the occurrence of a quantum Zeno dynamics, which is interpreted as the removal of some coupling terms and the vanishing of an operatorial pseudo-Lamb shift.

Evanescent waverotating wave approximationeffective HamiltonianGeneral Physics and AstronomyFOS: Physical scienceslcsh:Astrophysics01 natural sciencesArticle010305 fluids & plasmassymbols.namesake0103 physical scienceslcsh:QB460-466non-Hermitian HamiltonianLimit (mathematics)quantum Zeno effect010306 general physicslcsh:ScienceMathematical physicsQuantum Zeno effectCouplingPhysicsQuantum PhysicsBasis (linear algebra)open quantum systemsEffective hamiltonian Non-hermitian hamiltonian Open quantum systems Quantum zeno effect Rotating wave approximationHermitian matrixlcsh:QC1-999symbolsRotating wave approximationlcsh:QHamiltonian (quantum mechanics)Quantum Physics (quant-ph)lcsh:Physics
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Nonlinear quantum Langevin equations for bosonic modes in solid-state systems

2017

Based on the experimental evidence that impurities contribute to the dissipation properties of solid-state open quantum systems, we provide here a description in terms of nonlinear quantum Langevin equations of the role played by two-level systems in the dynamics of a bosonic degree of freedom. Our starting point is represented by the description of the system/environment coupling in terms of coupling to two separate reservoirs, modelling the interaction with external bosonic modes and two level systems, respectively. Furthermore, we show how this model represents a specific example of a class of open quantum systems that can be described by nonlinear quantum Langevin equations. Our analysi…

FOS: Physical sciences02 engineering and technology01 natural sciencesOpen quantum systemQuantum mechanics0103 physical sciencesMesoscale and Nanoscale Physics (cond-mat.mes-hall)Point (geometry)010306 general physicsQuantumOptomechanicsParametric statisticsPhysicsQuantum PhysicsCondensed Matter - Mesoscale and Nanoscale Physicsta114Dissipation021001 nanoscience & nanotechnologyNonlinear systemCoupling (physics)solid-state systemsClassical mechanics0210 nano-technologyQuantum Physics (quant-ph)Langevin equationsPhysics - OpticsOptics (physics.optics)Physical Review A
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Nonlocality threshold for entanglement under general dephasing evolutions: A case study

2015

Determining relationships between different types of quantum correlations in open composite quantum systems is important since it enables the exploitation of a type by knowing the amount of another type. We here review, by giving a formal demonstration, a closed formula of the Bell function, witnessing nonlocality, as a function of the concurrence, quantifying entanglement, valid for a system of two noninteracting qubits initially prepared in extended Werner-like states undergoing any local pure-dephasing evolution. This formula allows for finding nonlocality thresholds for the concurrence depending only on the purity of the initial state. We then utilize these thresholds in a paradigmatic …

FOS: Physical sciencesQuantum entanglementSquashed entanglement01 natural sciencesSettore FIS/03 - Fisica Della Materia010305 fluids & plasmasTheoretical Computer ScienceQuantum entanglementQuantum nonlocalityQuantum mechanics0103 physical sciencesElectrical and Electronic Engineering010306 general physicsQuantum computerPhysicsBell stateQuantum PhysicsBell nonlocalityStatistical and Nonlinear PhysicsConcurrenceQuantum PhysicsElectronic Optical and Magnetic MaterialsOpen quantum systemModeling and SimulationQubitSignal ProcessingPure-dephasingW stateQuantum Physics (quant-ph)
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