Search results for "Quantum Information"

showing 7 items of 267 documents

Selective writing and read-out of a register of static qubits

2013

We propose a setup comprising an arbitrarily large array of static qubits (SQs), which interact with a flying qubit (FQ). The SQs work as a quantum register, which can be written or read-out by means of the FQ through quantum state transfer (QST). The entire system, including the FQ's motional degrees of freedom, behaves quantum mechanically. We demonstrate a strategy allowing for selective QST between the FQ and a single SQ chosen from the register. This is achieved through a perfect mirror located beyond the SQs and suitable modulation of the inter-SQ distances.

quantum computersQuantum registerDegrees of freedom (statistics)General Physics and AstronomyFOS: Physical sciencesTopologyQuantum stateMesoscale and Nanoscale Physics (cond-mat.mes-hall)quantum state transfersquantum opticsQuantum informationQuantumENTANGLEMENTPhysicsQuantum PhysicsCondensed Matter - Mesoscale and Nanoscale PhysicsPhysicsquantum theoryQIP via scattering quantum memoriesELECTRONSPerfect mirrorArbitrarily largeSPINQubitQuantum Physics (quant-ph)
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CONTROLLING THE QUANTUM DYNAMICS OF MULTIPARTITE JOSEPHSON CIRCUITS

2011

CONTROLLING THE QUANTUM DYNAMICS OF MULTIPARTITE JOSEPHSON CIRCUITS

quantum information josephson junctions entanglement master equationSettore FIS/03 - Fisica Della Materia
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Superconducting tunnel junction fabrication on three-dimensional topography based on direct laser writing

2020

Superconducting junctions are widely used in a multitude of applications ranging from quantum information science and sensing to solidstate cooling. Traditionally, such devices must be fabricated on flat substrates using standard lithographic techniques. In this study, we demonstrate a highly versatile method that allows for superconducting junctions to be fabricated on a more complex topography. It is based on maskless direct laser writing and two-photon lithography, which allows writing in 3D space. We show that high-quality normal metal–insulator–superconductor tunnel junctions can be fabricated on top of a 20-lm-tall three-dimensional topography. Combined with conformal resist coating m…

quantum informationspin coatingcryogenicsnanoelektroniikkaphononic crystalsuperconductor-insulator-superconductor tunnel junctionnanotekniikkatemperature metrologymultiphoton lithographyrefrigeratorselectron tunnelingsuprajohteet
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Quantum Information by Adiabatic Passage : Quantum Gates and Decoherence

2007

The first part of this thesis is about adiabatic quantum processes designed for the implementation of quantum logic gates, the elementary components of quantumcomputers, by the interaction of pulsed laser fields with atoms. The adiabaticmethods allow robust processes, i.e. which are not sensitive to the fluctuationsof experimental parameters. The processes described in this thesis only requireaccurate control of the polarisations and the relative static phases of thelaser fields. These processes allow the implementation of a universal set ofquantum gates, which make possible the implementation of all the other quantumgates by combinations.The second part of this thesis concerns the effects …

quantum logic gatesinformation quantique[PHYS.PHYS.PHYS-ATOM-PH]Physics [physics]/Physics [physics]/Atomic Physics [physics.atom-ph]passage adiabatiquequantum informationquantum computation[ PHYS.PHYS.PHYS-ATOM-PH ] Physics [physics]/Physics [physics]/Atomic Physics [physics.atom-ph]décohérenceadiabatic passage[PHYS.PHYS.PHYS-ATOM-PH] Physics [physics]/Physics [physics]/Atomic Physics [physics.atom-ph]portes logiques quantiquescalcul quantique
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Controlling Atom-Photon Bound States in an Array of Josephson-Junction Resonators

2022

Engineering the electromagnetic environment of a quantum emitter gives rise to a plethora of exotic light -matter interactions. In particular, photonic lattices can seed long-lived atom-photon bound states inside photonic band gaps. Here, we report on the concept and implementation of a novel microwave architecture consisting of an array of compact superconducting resonators in which we have embedded two frequency -tunable artificial atoms. We study the atom-field interaction and access previously unexplored coupling regimes, in both the single-and double-excitation subspace. In addition, we demonstrate coherent interactions between two atom-photon bound states, in both resonant and dispers…

quantumPhotonics:Física [Àrees temàtiques de la UPC]latticesFotònicaedgeGeneral Physics and Astronomylight-matter interactionsCircuit QED. Waveguide QED. Quantum information processing implementationsSettore FIS/03 - Fisica Della Materia
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Experimental Engineering of Arbitrary Qudit States with Discrete-Time Quantum Walks

2019

The capability to generate and manipulate quantum states in high-dimensional Hilbert spaces is a crucial step for the development of quantum technologies, from quantum communication to quantum computation. One-dimensional quantum walk dynamics represents a valid tool in the task of engineering arbitrary quantum states. Here we affirm such potential in a linear-optics platform that realizes discrete-time quantum walks in the orbital angular momentum degree of freedom of photons. Different classes of relevant qudit states in a six-dimensional space are prepared and measured, confirming the feasibility of the protocol. Our results represent a further investigation of quantum walk dynamics in p…

qudit statesPhotonLightComputer scienceFOS: Physical sciencesGeneral Physics and Astronomy01 natural sciencesSettore FIS/03 - Fisica Della MateriaDegrees of freedom (mechanics)symbols.namesakeQuantum statequantum information0103 physical sciencesquantum walksphotonsQuantum walkStatistical physics010306 general physicsQuantum information scienceQuantumQuantum computerQuantum PhysicsQuantum opticsHilbert spacequatum walks; qudit states; photonsQuantum computersQuantum technologysymbolsQuantum Physics (quant-ph)quatum walks
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Indistinguishability of Elementary Systems as a Resource for Quantum Information Processing.

2017

Typical elements of quantum networks are made by identical systems, which are the basic particles constituting a resource for quantum information processing. Whether the indistinguishability due to particle identity is an exploitable quantum resource remains an open issue. Here we study independently prepared identical particles showing that, when they spatially overlap, an operational entanglement exists which can be made manifest by means of separated localized measurements. We prove this entanglement is physical in that it can be directly exploited to activate quantum information protocols, such as teleportation. These results establish that particle indistinguishability is a utilizable …

teleportationQuantum PhysicsQuantum networkComputer scienceIdentical particles: Quantum EntanglementFOS: Physical sciencesGeneral Physics and AstronomyQuantum entanglement01 natural sciencesTeleportationSettore FIS/03 - Fisica Della Materia010305 fluids & plasmas0103 physical sciencesQuantum information processingIdentity (object-oriented programming)ParticleStatistical physicsQuantum informationQuantum Physics (quant-ph)010306 general physicsQuantumIdentical particlesPhysical review letters
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