Search results for "quantum information"

showing 10 items of 267 documents

Approximate supervised learning of quantum gates via ancillary qubits

2018

We present strategies for the training of a qubit network aimed at the ancilla-assisted synthesis of multi-qubit gates based on a set of restricted resources. By assuming the availability of only time-independent single and two-qubit interactions, we introduce and describe a supervised learning strategy implemented through momentum-stochastic gradient descent with automatic differentiation methods. We demonstrate the effectiveness of the scheme by discussing the implementation of non-trivial three qubit operations, including a Quantum Fourier Transform (QFT) and a half-adder gate.

Theoretical computer sciencePhysics and Astronomy (miscellaneous)Computer scienceSupervised learningQuantum Physicsquantum-computation01 natural sciencesSettore FIS/03 - Fisica Della Materia010305 fluids & plasmasSet (abstract data type)Quantum-informationComputer Science::Emerging TechnologiesQuantum gatemachine learningquantum informationQubit0103 physical sciences/dk/atira/pure/subjectarea/asjc/3100/3101Hardware_ARITHMETICANDLOGICSTRUCTURESQuantum informationquantum-gates010306 general physicsQuantum computer
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Nonlinear evolution of cosmological inhomogeneities

2008

The nonlinear evolution of a cosmologically significant fluid is studied up to shell crossing. The magnetic part of the Weyl tensor, the pressure and the vorticity vanish. A suitable spatial grid is chosen. The relativistic Ellis equations are particularized on the world lines defined by the nodes of the grid and, then, the resulting equations are numerically solved. The integrations are performed in suitable Lagrangian inertial coordinates, in which the differential equations become ordinary. After the integration, a method to change from Lagrangian to Eulerian coordinates is applied. This approach has been outlined with the essential aim of studying the evolution of large scale cosmologic…

Weyl tensorPhysicssymbols.namesakeNonlinear systemInertial frame of referenceClassical mechanicsDifferential equationsymbolsEulerian pathQuantum informationVorticityRelativistic quantum chemistry
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Optimal control of spin-systems: Applications to Nuclear Magnetic Resonance and Quantum Information

2016

The goal of this thesis is to apply the optimal control theory to Nuclear Magnetic Resonance and Quantum Information. In a first step, we introduce the different topics and the dynamics of the analyzed systems. We give the necessary tools to use the Pontryagin Maximum Principle, and also an optimization algorithm, namely GRAPE. The first work is an application of the PMP to the control of a three-spin chain with unequal couplings. We continue with the study of a classical problem called "the tennis racket effect", which is a non-linear phenomenon occuring during the free rotation of a three-dimensional rigid body. We use the results in the following chapter to determine some control laws fo…

[ PHYS.QPHY ] Physics [physics]/Quantum Physics [quant-ph]free rotation of a rigid bodyrésonance magnétique nucléairenuclear magnetic resonanceoptimal controlinformation quantiquecontrôle optimal[PHYS.QPHY]Physics [physics]/Quantum Physics [quant-ph]quantum informationcontrôle robustetoupie d’Eulercontrôle quantiquequantum control[PHYS.QPHY] Physics [physics]/Quantum Physics [quant-ph]GRAPErobust control
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On the projective geometry of entanglement and contextuality

2019

[MATH.MATH-AG] Mathematics [math]/Algebraic Geometry [math.AG]Invariant theory[INFO.INFO-DM]Computer Science [cs]/Discrete Mathematics [cs.DM]Information quantiqueAlgebraic geometry[INFO.INFO-DM] Computer Science [cs]/Discrete Mathematics [cs.DM]Théorie des invariants[PHYS.QPHY]Physics [physics]/Quantum Physics [quant-ph][MATH.MATH-MP]Mathematics [math]/Mathematical Physics [math-ph]Géométrie discrète et combinatoireGéométrie algébriqueQuantum Information[MATH.MATH-AG]Mathematics [math]/Algebraic Geometry [math.AG][MATH.MATH-MP] Mathematics [math]/Mathematical Physics [math-ph]Finite geometry[PHYS.QPHY] Physics [physics]/Quantum Physics [quant-ph]
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Kerr Combs and Telecommunications Components for the Generation and High-Dimensional Quantum Processing of d-Level Cluster States

2019

Large and complex optical quantum states are a key resource for fundamental science and applications such as quantum communications, information processing, and metrology. In this context, cluster states are a particularly important class because they enable the realization of universal quantum computers by means of the so-called ‘one-way’ scheme, where processing operations are performed through measurements on the state. While two-level (i.e. qubit) cluster states have been realized thus far, further boosting this computational resource by increasing the number of particles comes at the price of significantly reduced coherence time and detection rates, as well as increased sensitivity to …

business.industryQuantum stateComputer scienceQubitElectronic engineeringQuantum entanglementQuantum channelPhotonicsbusinessComputational resourceQuantum information scienceQuantum computer2019 21st International Conference on Transparent Optical Networks (ICTON)
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Topological Protection and Control of Quantum Markovianity

2020

This article belongs to the Special Issue Topological Photonics.

lcsh:Applied optics. PhotonicsDecoherence dynamicAnderson localizationQuantum-Hall topological insulatorQuantum decoherencePhysics::OpticsFOS: Physical sciences02 engineering and technologyTopology01 natural sciencesQuantum-Hall topological insulators0103 physical sciencesTopological orderRadiology Nuclear Medicine and imagingAnderson localizationGauge theoryQuantum information010306 general physicsInstrumentationQuantumNon-Markovianity in open quantum systemPhysicsQuantum PhysicsCavity quantum electrodynamicslcsh:TA1501-1820Decoherence dynamics021001 nanoscience & nanotechnologyAtomic and Molecular Physics and OpticsTopological orderQubitQuantum Physics (quant-ph)0210 nano-technologyNon-Markovianity in open quantum systemsPhotonics
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Generation of programmable 3D optical vortex structures through devil’s vortex-lens arrays

2013

Different spatial distributions of optical vortices have been generated and characterized by implementing arrays of devil's vortex lenses in a reconfigurable spatial light modulator. A simple design procedure assigns the preferred position and topological charge value to each vortex in the structure, tuning the desired angular momentum. Distributions with charges and momenta of the opposite sign have been experimentally demonstrated. The angular velocity exhibited by the phase distribution around the focal plane has been visualized, showing an excellent agreement with the simulations. The practical limits of the method, with interest for applications involving particle transfer and manipula…

media_common.quotation_subjectDiffractive lensesDammann gratingslaw.inventionLiquid-crystal displayDiffractive lensOpticsExcellencelawElectrical and Electronic EngineeringAngular-momentumEngineering (miscellaneous)Diffractive opticsmedia_commonOptical vorticesPhysicsbusiness.industryVorticesQuantum information processingAtomic and Molecular Physics and OpticsVortexLens (optics)Zone platesFISICA APLICADAbusinessOptical vortexApplied Optics
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Fundamental bounds on qubit reset

2020

Qubit reset is a basic prerequisite for operating quantum devices, requiring the export of entropy. The fastest and most accurate way to reset a qubit is obtained by coupling the qubit to an ancilla on demand. Here, we derive fundamental bounds on qubit reset in terms of maximum fidelity and minimum time, assuming control over the qubit and no control over the ancilla. Using the Cartan decomposition of the Lie algebra of qubit plus two-level ancilla, we identify the types of interaction and controls for which the qubit can be purified. For these configurations, we show that a time-optimal protocol consists of purity exchange between qubit and ancilla brought into resonance, where the maximu…

media_common.quotation_subjectFOS: Physical sciencesQuantum controlFidelityTopology53001 natural sciences010305 fluids & plasmassymbols.namesakeComputer Science::Emerging TechnologiesDimension (vector space)0103 physical sciencesQuantum information architectures & platformsQuantum information010306 general physicsQuantum information architectures & platformsmedia_commonPhysicsQuantum Physics500 Naturwissenschaften und Mathematik::530 Physik::530 PhysikHilbert spaceQuantum controlQuantum PhysicsQubitsymbolsQuantum InformationQuantum Physics (quant-ph)Reset (computing)
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Experimental on-demand recovery of entanglement by local operations within non-Markovian dynamics

2015

In many applications entanglement must be distributed through noisy communication channels that unavoidably degrade it. Entanglement cannot be generated by local operations and classical communication (LOCC), implying that once it has been distributed it is not possible to recreate it by LOCC. Recovery of entanglement by purely local control is however not forbidden in the presence of non-Markovian dynamics, and here we demonstrate in two all-optical experiments that such entanglement restoration can even be achieved on-demand. First, we implement an open-loop control scheme based on a purely local operation, without acquiring any information on the environment; then, we use a closed-loop s…

non-Markovian dynamicsComputer scienceFOS: Physical sciencesMarkov processQuantum entanglementquantum entanglementTopologyArticleSettore FIS/03 - Fisica Della MateriaMultidisciplinary; quantum information; quantum entanglement; open quantum systemsEntanglementsymbols.namesakeNon Markovian dynamicsquantum informationOn demandquantum opticsQuantumQuantum networkLOCCQuantum PhysicsEntanglement entanglement recovery non-Markovian dynamicsMultidisciplinaryHidden entanglementTheoryofComputation_GENERALQuantum Physicsopen quantum systemsOutcome (probability)Dynamics (music)Hidden entanglement non-Markovian dynamics quantum optics quantum informationsymbolsQuantum Physics (quant-ph)entanglement recoveryScientific Reports
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Experimental generalized quantum suppression law in Sylvester interferometers

2017

Photonic interference is a key quantum resource for optical quantum computation, and in particular for so-called boson sampling machines. In interferometers with certain symmetries, genuine multiphoton quantum interference effectively suppresses certain sets of events, as in the original Hong-Ou-Mandel effect. Recently, it was shown that some classical and semi-classical models could be ruled out by identifying such suppressions in Fourier interferometers. Here we propose a suppression law suitable for random-input experiments in multimode Sylvester interferometers, and verify it experimentally using 4- and 8-mode integrated interferometers. The observed suppression is stronger than what is…

photonicsGeneral Physics and AstronomyQuantum simulatorFOS: Physical sciences02 engineering and technologyInterference (wave propagation)01 natural sciencesSettore FIS/03 - Fisica Della Materiaquantumquantum informationboson sampling0103 physical sciencesQuantum metrologyquantum opticssuppression lawQuantum information010306 general physicsQuantumBosonQuantum computerQuantum opticsPhysicsgeneralized Hong-Ou-Mandel effectintegrated interferometersQuantum Physicsgeneralized Hong-Ou-Mandel effect; integrated interferometers; multi-photon interference; suppression law021001 nanoscience & nanotechnologyLaw0210 nano-technologyQuantum Physics (quant-ph)multi-photon interference
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