Search results for "angle"

showing 10 items of 1921 documents

Entanglement continuous unitary transformations

2016

Continuous unitary transformations are a powerful tool to extract valuable information out of quantum many-body Hamiltonians, in which the so-called flow equation transforms the Hamiltonian to a diagonal or block-diagonal form in second quantization. Yet, one of their main challenges is how to approximate the infinitely-many coupled differential equations that are produced throughout this flow. Here we show that tensor networks offer a natural and non-perturbative truncation scheme in terms of entanglement. The corresponding scheme is called "entanglement-CUT" or eCUT. It can be used to extract the low-energy physics of quantum many-body Hamiltonians, including quasiparticle energy gaps. We…

PhysicsQuantum PhysicsStrongly Correlated Electrons (cond-mat.str-el)High Energy Physics - Lattice (hep-lat)FOS: Physical sciencesGeneral Physics and AstronomyQuantum entanglement01 natural sciencesSecond quantizationMatrix multiplication010305 fluids & plasmasCondensed Matter - Strongly Correlated Electronssymbols.namesakeTheoretical physicsHigh Energy Physics - Lattice0103 physical sciencesThermodynamic limitsymbolsIsing modelQuantum Physics (quant-ph)010306 general physicsHamiltonian (quantum mechanics)QuantumPotts modelEPL (Europhysics Letters)

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Topological transitions from multipartite entanglement with tensor networks: a procedure for sharper and faster characterization

2014

Topological order in a 2d quantum matter can be determined by the topological contribution to the entanglement R\'enyi entropies. However, when close to a quantum phase transition, its calculation becomes cumbersome. Here we show how topological phase transitions in 2d systems can be much better assessed by multipartite entanglement, as measured by the topological geometric entanglement of blocks. Specifically, we present an efficient tensor network algorithm based on Projected Entangled Pair States to compute this quantity for a torus partitioned into cylinders, and then use this method to find sharp evidence of topological phase transitions in 2d systems with a string-tension perturbation…

PhysicsQuantum PhysicsStrongly Correlated Electrons (cond-mat.str-el)Topological degeneracyHigh Energy Physics - Lattice (hep-lat)General Physics and AstronomyFOS: Physical sciencesQuantum topologyTopologySquashed entanglement530Topological entropy in physicsMultipartite entanglementSymmetry protected topological orderCondensed Matter - Strongly Correlated ElectronsHigh Energy Physics - LatticeTopological orderQuantum Physics (quant-ph)Topological quantum number

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Non-Markovian dynamics and steady-state entanglement of cavity arrays in finite-bandwidth squeezed reservoirs

2014

When two chains of quantum systems are driven at their ends by a two-mode squeezed reservoir, they approach a steady state characterized by the formation of many entangled pairs. Each pair is made of one element of the first and one of the second chain. This effect has been already predicted under the assumption of broadband squeezing. Here we investigate the situation of finite-bandwidth reservoirs. This is done by modeling the driving bath as the output field of a non-degenerate parametric oscillator. The resulting non-Markovian dynamics is studied within the theoretical framework of cascade open quantum systems. It is shown that the formation of pair-entangled structures occurs as long a…

PhysicsQuantum PhysicsTheoryofComputation_COMPUTATIONBYABSTRACTDEVICESQuantum decoherenceStatistical Mechanics (cond-mat.stat-mech)Bandwidth (signal processing)Markov processFOS: Physical sciencesQuantum entanglementQuantum PhysicsAtomic and Molecular Physics and Opticssymbols.namesakeQuantum mechanicssymbolsStatistical physicsParametric oscillatorQuantum Physics (quant-ph)Computer Science::DatabasesCondensed Matter - Statistical MechanicsOptics (physics.optics)Physics - Optics

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Robust stationary entanglement of two coupled qubits in independent environments

2009

The dissipative dynamics of two interacting qubits coupled to independent reservoirs at nonzero temperatures is investigated, paying special attention to the entanglement evolution. The counter-rotating terms in the qubit-qubit interaction give rise to stationary entanglement, traceable back to the ground state structure. The robustness of this entanglement against thermal noise is thoroughly analyzed, establishing that it can be detected at reasonable experimental temperatures. Some effects linked to a possible reservoir asymmetry are brought to light.

PhysicsQuantum Physicsmedia_common.quotation_subjectStructure (category theory)FOS: Physical sciencesQuantum entanglementQuantum PhysicsAsymmetryAtomic and Molecular Physics and OpticsRobustness (computer science)QubitStatistical physicsGround stateDissipative dynamicsQuantum Physics (quant-ph)decoerenza dissipazione entanglementmedia_common

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Rising time of entanglement between scattering spins,

2009

We investigate the time evolution of entanglement in a process where a mobile particle is scattered by static spins. We show that entanglement increases monotonically during a transient and then saturates to a steady-state value. For a quasi-monochromatic mobile particle, the transient time depends only on the group-velocity and width of the incoming wavepacket and is insensitive to the interaction strength and spin-number of the scattering particles. These features do not depend on the interaction model and can be seen in various physical settings.

PhysicsQuantum Physicsquantum information theory transport in mesoscopic structuresSpinsCondensed matter physicsCondensed Matter - Mesoscale and Nanoscale PhysicsScatteringWave packetTime evolutionFOS: Physical sciencesQuantum entanglementCondensed Matter PhysicsSpin quantum numberElectronic Optical and Magnetic MaterialsQuantum mechanicsMesoscale and Nanoscale Physics (cond-mat.mes-hall)ParticleGroup velocityQuantum Physics (quant-ph)

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Mechanical entanglement detection in an optomechanical system

2017

We propose here a setup to generate and evaluate the entanglement between two mechanical resonators in a cavity optomechanical setting. As in previous proposals, our scheme includes two driving pumps allowing for the generation of two-mode mechanical squeezing. In addition, we include here four additional probing tones, which allow for the separate evaluation of the collective mechanical quadratures required to estimate the Duan quantity, thus allowing us to infer whether the mechanical resonators are entangled.

PhysicsQuantum Physicsta114Condensed Matter - Mesoscale and Nanoscale Physicsoptical physicsFOS: Physical sciencesQuantum entanglement01 natural sciences010305 fluids & plasmasResonatorClassical mechanicsquantum informationQuantum mechanics0103 physical sciencesMesoscale and Nanoscale Physics (cond-mat.mes-hall)molecular010306 general physicsQuantum Physics (quant-ph)kvantti-informaatio

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Generation of multipartite entangled states in Josephson architectures

2006

We propose and analyze a scheme for the generation of multipartite entangled states in a system of inductively coupled Josephson flux qubits. The qubits have fixed eigenfrequencies during the whole process in order to minimize decoherence effects and their inductive coupling can be turned on and off at will by tuning an external control flux. Within this framework, we will show that a W state in a system of three or more qubits can be generated by exploiting the sequential one by one coupling of the qubits with one of them playing the role of an entanglement mediator.

PhysicsQuantum computers Quantum optics flux qubitsQuantum PhysicsBell stateFlux qubitCondensed Matter - SuperconductivityCluster stateFOS: Physical sciencesWIGNER-FUNCTIONQuantum entanglementQuantum PhysicsQUANTUM-STATECondensed Matter PhysicsCOMPUTATIONElectronic Optical and Magnetic MaterialsSuperconductivity (cond-mat.supr-con)MultipartiteComputer Science::Emerging TechnologiesQuantum mechanicsTOMOGRAPHYW stateQuantum Physics (quant-ph)Superconducting quantum computingEntanglement distillationCHARGE QUBITS

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Dynamics of quantum correlations in two-qubit systems within non-Markovian environments

2012

Knowledge of the dynamical behavior of correlations with no classical counterpart, like entanglement, nonlocal correlations and quantum discord, in open quantum systems is of primary interest because of the possibility to exploit these correlations for quantum information tasks. Here we review some of the most recent results on the dynamics of correlations in bipartite systems embedded in non-Markovian environments that, with their memory effects, influence in a relevant way the system dynamics and appear to be more fundamental than the Markovian ones for practical purposes. Firstly, we review the phenomenon of entanglement revivals in a two-qubit system for both independent environments an…

PhysicsQuantum correlationsQuantum discordQuantum Physicsta114DephasingMarkov processFOS: Physical sciencesStatistical and Nonlinear PhysicsQuantum entanglementQuantum PhysicsCondensed Matter Physicsnon-MarkovianitySettore FIS/03 - Fisica Della MateriaSystem dynamicssymbols.namesakeQubitOpen quantum systemsymbolsStatistical physicsQuantum informationQuantum Physics (quant-ph)Quantum

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Master equations for two qubits coupled via a nonlinear mode

2013

A microscopic master equation describing the dynamics of two qubits coupled via a nonlinear mediator is constructed supposing that the two qubits, as well as the nonlinear mode, interact, each with its own independent bosonic bath. Generally speaking the master equation derived in this way represents a more appropriate tool for studying the dynamics of open quantum systems. Indeed we show that it is more complex than the phenomenological master equation, constructed simply adding ad hoc dissipative terms.

PhysicsQuantum decoherenceGeneral MathematicsGeneral EngineeringQuantum entanglementDissipationOpen quantum systems Master equations Dissipation Decoherence EntanglementSettore FIS/03 - Fisica Della MateriaNonlinear systemClassical mechanicsQubitMaster equationDissipative systemQuantumJournal of Engineering Mathematics

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Bilayer graphene lattice-layer entanglement in the presence of non-Markovian phase noise

2018

The evolution of single particle excitations of bilayer graphene under effects of non-Markovian noise is described with focus on the decoherence process of lattice-layer (LL) maximally entangled states. Once that the noiseless dynamics of an arbitrary initial state is identified by the correspondence between the tight-binding Hamiltonian for the AB-stacked bilayer graphene and the Dirac equation -- which includes pseudovector- and tensor-like field interactions -- the noisy environment is described as random fluctuations on bias voltage and mass terms. The inclusion of noisy dynamics reproduces the Ornstein-Uhlenbeck processes: a non-Markovian noise model with a well-defined Markovian limit…

PhysicsQuantum decoherenceQuantum entanglementQuantum PhysicsDissipation01 natural sciences010305 fluids & plasmassymbols.namesakeQuantum mechanicsDirac equation0103 physical sciencesPhase noisesymbols010306 general physicsHamiltonian (quantum mechanics)Bilayer graphenePseudovector

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