Search results for "QUANTUM-STATE"

showing 3 items of 3 documents

Quantum state engineering using one-dimensional discrete-time quantum walks

2017

Quantum state preparation in high-dimensional systems is an essential requirement for many quantum-technology applications. The engineering of an arbitrary quantum state is, however, typically strongly dependent on the experimental platform chosen for implementation, and a general framework is still missing. Here we show that coined quantum walks on a line, which represent a framework general enough to encompass a variety of different platforms, can be used for quantum state engineering of arbitrary superpositions of the walker's sites. We achieve this goal by identifying a set of conditions that fully characterize the reachable states in the space comprising walker and coin, and providing …

Angular momentumComputer scienceQuantum dynamicsQuantum technologiesFOS: Physical sciencesQuantum simulator02 engineering and technologyTopologySpace (mathematics)01 natural sciencesSettore FIS/03 - Fisica Della Materia010305 fluids & plasmasSet (abstract data type)Open quantum systemQuantum statequantum informationQuantum mechanics0103 physical sciencesExperimental platformquantum walksQuantum walk010306 general physicsPhysicsQuantum networkQuantum PhysicsHigh-dimensional systemsQuantum state preparationbusiness.industryOrbital angular momentumQuantum-state engineeringArbitrary superpositionOne-way quantum computer021001 nanoscience & nanotechnologyAtomic and Molecular Physics and OpticsArbitrary quantum stateQuantum technologyDiscrete time and continuous timeLine (geometry)PhotonicsQuantum Physics (quant-ph)0210 nano-technologybusiness
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Fast shuttling of a trapped ion in the presence of noise

2014

We theoretically investigate the motional excitation of a single ion caused by spring-constant and position fluctuations of a harmonic trap during trap shuttling processes. A detailed study of the sensitivity on noise for several transport protocols and noise spectra is provided. The effect of slow spring-constant drifts is also analyzed. Trap trajectories that minimize the excitation are designed combining invariant-based inverse engineering, perturbation theory, and optimal control.

PhysicsQuantum PhysicsEquationSystemsFOS: Physical sciencesDecoherenceQuantum-state diffusion1/F noiseIon trappingAtomic and Molecular Physics and OpticsIonDynamicsTrap (computing)Perturbation approachQuantum mechanicstransportHarmonicSensitivity (control systems)Perturbation theoryAtomic physicsQuantum Physics (quant-ph)Noise (radio)Excitation
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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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