Search results for "Cluster state"

showing 10 items of 23 documents

Scalable and effective multi-level entangled photon states: a promising tool to boost quantum technologies

2021

Abstract Multi-level (qudit) entangled photon states are a key resource for both fundamental physics and advanced applied science, as they can significantly boost the capabilities of novel technologies such as quantum communications, cryptography, sensing, metrology, and computing. The benefits of using photons for advanced applications draw on their unique properties: photons can propagate over long distances while preserving state coherence, and they possess multiple degrees of freedom (such as time and frequency) that allow scalable access to higher dimensional state encoding, all while maintaining low platform footprint and complexity. In the context of out-of-lab use, photon generation…

Photonintegrated and cost-efficient photonic platformComputer sciencephoton cluster statesQC1-999Context (language use)witness operatorsQuantum entanglementQuantum channelquantum photonicsphoton cluster stateRobustness (computer science)Electronic engineeringElectrical and Electronic EngineeringQCbusiness.industryexperimentally feasible entanglement characterizationPhysicsSettore ING-INF/02 - Campi Elettromagneticicomplex entanglementAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsQuantum technologyintegrated and cost-efficient photonic platformsPhotonicsbusinessquantum photonicBiotechnologyCoherence (physics)
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Dynamics and extraction of quantum discord in a multipartite open system

2011

We consider a multipartite system consisting of two noninteracting qubits each embedded in a single-mode leaky cavity, in turn connected to an external bosonic reservoir. Initially, we take the two qubits in an entangled state while the cavities and the reservoirs have zero photons. We investigate, in this six-partite quantum system, the transfer of quantum discord from the qubits to the cavities and reservoirs. We show that this transfer occurs also when the cavities are not entangled. Moreover, we discuss how quantum discord can be extracted from the cavities and transferred to distant systems by traveling leaking photons, using the input-output theory.

dynamics of quantum correlations; extraction of quantum correlations; Multipartite open quantum systems; Physics and Astronomy (miscellaneous)PhysicsQuantum PhysicsQuantum networkQuantum discordPhysics and Astronomy (miscellaneous)dynamics of quantum correlationCluster stateCavity quantum electrodynamicsPhysics::OpticsFOS: Physical sciencesMultipartite open quantum systems; dynamics of quantum correlations; extraction of quantum correlationsQuantum Physicsextraction of quantum correlationsSettore FIS/03 - Fisica Della MateriaMultipartite open quantum systemsQuantum technologyOpen quantum systemdynamics of quantum correlationsMultipartite open quantum systemQuantum mechanicsPhysics::Accelerator PhysicsW stateQuantum Physics (quant-ph)Quantum teleportation
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Enhancing coherence in molecular spin qubits via atomic clock transitions

2016

Quantum computing is an emerging area within the information sciences revolving around the concept of quantum bits (qubits). A major obstacle is the extreme fragility of these qubits due to interactions with their environment that destroy their quantumness. This phenomenon, known as decoherence, is of fundamental interest1,2. There are many competing candidates for qubits, including superconducting circuits3, quantum optical cavities4, ultracold atoms5 and spin qubits6,7,8, and each has its strengths and weaknesses. When dealing with spin qubits, the strongest source of decoherence is the magnetic dipolar interaction9. To minimize it, spins are typically diluted in a diamagnetic matrix. For…

PhysicsMultidisciplinaryCondensed matter physicsCluster stateUNESCO::QUÍMICASpin engineeringQuantum Physics02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences:QUÍMICA [UNESCO]0104 chemical sciencesQuantum error correctionQuantum mechanicsQuantum informationW state0210 nano-technologySuperconducting quantum computingQuantum dissipationQuantum computer
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Dynamical entanglement-transfer for quantum information networks

2004

A key element in the architecture of a quantum information processing network is a reliable physical interface between fields and qubits. We study a process of entanglement transfer engineering, where two remote qubits respectively interact with entangled two-mode continuous variable (CV) field. We quantify the entanglement induced in the qubit state at the expenses of the loss of entanglement in the CV system. We discuss the range of mixed entangled states which can be obtained with this set-up. Furthermore, we suggest a protocol to determine the residual entangling power of the light fields, inferring, thus, the entanglement left in the field modes which, after the interaction, are no lon…

PhysicsBell stateQuantum PhysicsQuantum information; Entanglement; Cavity QED; Josephson devicesQuantum informationCondensed Matter - Mesoscale and Nanoscale PhysicsCluster stateJosephson devicesFOS: Physical sciencesTheoryofComputation_GENERALCavity QEDQuantum entanglementQuantum PhysicsSquashed entanglementMultipartite entanglementAtomic and Molecular Physics and OpticsEntanglementQuantum mechanicsQubitMesoscale and Nanoscale Physics (cond-mat.mes-hall)Statistical physicsW stateQuantum informationQuantum Physics (quant-ph)
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From scalar to polar active matter: Connecting simulations with mean-field theory

2019

We study numerically the phase behavior of self-propelled elliptical particles interacting through the ``hard'' repulsive Gay-Berne potential at infinite P\'eclet number. Changing a single parameter, the aspect ratio, allows us to continuously go from discoid active Brownian particles to elongated polar rods. Discoids show phase separation, which changes to a cluster state of polar domains, which then form polar bands as the aspect ratio is increased. From the simulations, we identify and extract the two effective parameters entering the mean-field description: the force imbalance coefficient and the effective coupling to the local polarization. These two coefficients are sufficient to obta…

PhysicsStatistical Mechanics (cond-mat.stat-mech)Cluster stateFOS: Physical sciencesCondensed Matter - Soft Condensed MatterPolarization (waves)01 natural sciencesRod010305 fluids & plasmasActive matterClassical mechanicsMean field theoryPhase (matter)0103 physical sciencesPolarSoft Condensed Matter (cond-mat.soft)010306 general physicsBrownian motionCondensed Matter - Statistical Mechanics
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Shaking the entropy out of a lattice:atomic filtering by vibrational excitations

2012

We present a simple and efficient scheme to reduce atom-number fluctuations in optical lattices. The interaction-energy difference for atoms in different vibrational states is used to remove excess atomic occupation. The remaining vacant sites are then filled with atoms by merging adjacent wells, for which we implement a protocol that circumvents the constraints of unitarity. The preparation of large regions with precisely one atom per lattice site is discussed for both bosons and fermions. The resulting low-entropy Mott-insulating states may serve as high-fidelity register states for quantum computing and as a starting point for investigations of many-body physics.

PhysicsCondensed Matter::Quantum GasesQuantum PhysicsOptical latticeUnitarityCluster stateFOS: Physical sciencesFermion01 natural sciencesAtomic and Molecular Physics and Optics010305 fluids & plasmasquant-phQuantum Gases (cond-mat.quant-gas)Lattice (order)Quantum mechanics0103 physical sciencesAtomAtomic physicsCondensed Matter - Quantum GasesQuantum Physics (quant-ph)010306 general physicscond-mat.quant-gasQuantum computerBoson
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Polynomial method to study the entanglement of pure N-qubit states

2009

We present a mapping which associates pure N-qubit states with a polynomial. The roots of the polynomial characterize the state completely. Using the properties of the polynomial we construct a way to determine the separability and the number of unentangled qubits of pure N-qubit states.

Discrete mathematicsPhysicsPolynomialQuantum PhysicsQuantum t-designSettore FIS/02 - Fisica Teorica Modelli E Metodi MatematiciCluster stateFOS: Physical sciencesQuantum entanglementQuantum PhysicsPolinomiMeccanica quantisticaAtomic and Molecular Physics and OpticsSettore FIS/03 - Fisica Della MateriaEntanglementSeparable stateComputer Science::Emerging TechnologiesQubitQuantum mechanicsComputingMethodologies_SYMBOLICANDALGEBRAICMANIPULATIONW stateHardware_ARITHMETICANDLOGICSTRUCTURESQuantum Physics (quant-ph)Quantum teleportation
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Revival of quantum correlations without system-environment back-action

2010

Revivals of quantum correlations have often been explained in terms of back-action on quantum systems by their quantum environment(s). Here we consider a system of two independently evolving qubits, each locally interacting with a classical random external field. The environments of the qubits are also independent, and there is no back-action on the qubits. Nevertheless, entanglement, quantum discord and classical correlations between the two qubits may revive in this model. We explain the revivals in terms of correlations in a classical-quantum state of the environments and the qubits. Although classical states cannot store entanglement on their own, they can play a role in storing and rev…

PhysicsQuantum PhysicsQuantum discordBell stateCluster stateFOS: Physical sciencesQuantum entanglementQuantum PhysicsAtomic and Molecular Physics and OpticsSettore FIS/03 - Fisica Della MateriaEntanglementOpen quantum systemQuantum mechanicsOpen quantum systemStatistical physicsW stateAmplitude damping channelQuantum Physics (quant-ph)Quantum teleportationquantum correlation
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INVESTIGATION, REALIZATION, AND ENTANGLEMENT CHARACTERIZATION OF COMPLEX OPTICAL QUANTUM STATES

2020

high-dimensional one-way quantum processingSettore FIS/02 - Fisica Teorica Modelli E Metodi Matematicimultipartite d-level cluster statewitness operatortime- and frequency-entanglementSettore FIS/01 - Fisica Sperimentalequantum mechanicentanglementcomplex entangled photon statehigh-dimensional frequency-entangled photon pair
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Halo-like structure in 7He nucleus

2020

A study of the neutron structure of the ground state of 7He has been performed by means of registration and analysis of the decay channels of the residual nuclei following absorption of stopped pions. In particular, the reaction 9Be (${\pi }_{}^{-},d$)X have been investigated where X denotes any system with five neutrons and two protons – the constituencies of a 7He nucleus. It was shown that the structure of 7He is determined by correlations of two neutrons in the states 6He (0+), 6He (2+) and one neutron in the shell p3/2. The 4He+3n structure is not manifested in the ground state of 7He. The obtained results are consistent with the known data on considerable mixture of configurations "6H…

Cluster stateNuclear TheoryNucleon-nucleon interactionsBerylliumheliumNuclear Experimentydinfysiikka
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