Search results for "CAVI"

showing 10 items of 827 documents

Adiabatic quantum search scheme with atoms in a cavity driven by lasers

2007

We propose an implementation of the quantum search algorithm of a marked item in an unsorted list of N items by adiabatic passage in a cavity-laser-atom system. We use an ensemble of N identical three-level atoms trapped in a single-mode cavity and driven by two lasers. In each atom, the same level represents a database entry. One of the atoms is marked by having an energy gap between its two ground states. Appropriate time delays between the two laser pulses allow one to populate the marked state starting from an initial entangled state within a decoherence-free adiabatic subspace. The time to achieve such a process is shown to exhibit the Grover speedup.

PhysicsQuantum networkQuantum Physics[ PHYS.QPHY ] Physics [physics]/Quantum Physics [quant-ph]Cavity quantum electrodynamicsFOS: Physical sciencesGeneral Physics and AstronomyOne-way quantum computerAdiabatic quantum computation01 natural sciences010305 fluids & plasmasOpen quantum system[PHYS.QPHY]Physics [physics]/Quantum Physics [quant-ph]Quantum mechanics0103 physical sciencesPrincipal quantum numberPhysics::Atomic PhysicsQuantum Physics (quant-ph)010306 general physicsAdiabatic processComputingMilieux_MISCELLANEOUS[PHYS.QPHY] Physics [physics]/Quantum Physics [quant-ph]Quantum computer
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The physical origin of a photon-number parity effect in cavity quantum electrodynamics

2021

Abstract The rapidly increasing capability to modulate the physicochemical properties of atomic groups and molecules by means of their coupling to radiation, as well as the revolutionary potential of quantum computing for materials simulation and prediction, fuel the interest for non-classical phenomena produced by atom-radiation interaction in confined space. One of such phenomena is a “parity effect” that arises in the dynamics of an atom coupled to two degenerate cavity field modes by two-photon processes and manifests itself as a strong dependence of the field dynamics on the parity of the initial number of photons. Here we identify the physical origin of this effect in the quantum corr…

PhysicsQuantum opticsPhotonEntropyPhysicsQC1-999Degenerate energy levelsCavity quantum electrodynamicsGeneral Physics and AstronomyParity (physics)Quantum entanglementAtom-field interaction; Entropy; Parity effect; Quantum entanglement; Quantum opticsParity effectQuantum entanglementAtom-field interactionQuantum mechanicsQuantum informationQuantumQuantum computerResults in Physics
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Resonant atom-field interaction in large-size coupled-cavity arrays

2011

We consider an array of coupled cavities with staggered inter-cavity couplings, where each cavity mode interacts with an atom. In contrast to large-size arrays with uniform-hopping rates where the atomic dynamics is known to be frozen in the strong-hopping regime, we show that resonant atom-field dynamics with significant energy exchange can occur in the case of staggered hopping rates even in the thermodynamic limit. This effect arises from the joint emergence of an energy gap in the free photonic dispersion relation and a discrete frequency at the gap's center. The latter corresponds to a bound normal mode stemming solely from the finiteness of the array length. Depending on which cavity …

PhysicsQuantum opticsQuantum PhysicsCondensed Matter - Mesoscale and Nanoscale PhysicsCondensed matter physicsBand gapCavity quantum electrodynamicsFOS: Physical sciencesMolecular physicsAtomic and Molecular Physics and OpticsNormal modeExcited stateDispersion relationThermodynamic limitAtomMesoscale and Nanoscale Physics (cond-mat.mes-hall)coupled cavities quantum opticsQuantum Physics (quant-ph)
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Fast Control of Quantum States in Quantum Dots: Limits due to Decoherence

2005

We study the kinetics of confined carrier-phonon system in a quantum dot under fast optical driving and discuss the resulting limitations to fast coherent control over the quantum state in such systems.

PhysicsQuantum opticsQuantum technologyCondensed Matter::Materials ScienceOpen quantum systemQuantum error correctionQuantum stateQuantum mechanicsQuantum sensorCavity quantum electrodynamicsCondensed Matter::Mesoscopic Systems and Quantum Hall EffectQuantum dissipation
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Time-resolved observation of coherent multi-body interactions in quantum phase revivals

2010

Interactions between microscopic particles are usually described as two-body interactions, although it has been shown that higher order multi-body interactions could give rise to novel quantum phases with intriguing properties. This paper demonstrates effective six-body interactions in a system of ultracold bosonic atoms in a three-dimensional optical lattice. The coherent multi-particle interactions observed here open a new window for simulations of effective field theories and may help to enable the realization of novel topologically ordered many-body quantum phases. Interactions between microscopic particles are usually described as two-body interactions, although it has been shown that …

PhysicsQuantum phase transitionOpen quantum systemMultidisciplinaryQuantum dynamicsQuantum mechanicsPrincipal quantum numberCavity quantum electrodynamicsQuantum simulatorQuantum phasesQuantum numberNature
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Feel the force

2014

An approach based on quantum sensing, in which controlled quantum systems serve as precision sensors, has enabled measurement of the weak magnetic interaction between two electrons bound to two separate ions. See Letter p.376 Every electron carries an intrinsic magnetic dipole moment, so any two electrons should therefore exert magnetic forces on one another. The forces involved are very small, and at atomic scale Coulomb interaction is dominant, so it is extremely difficult to observe the magnetic interaction. However, Shlomi Kotler et al. have now done just that, measuring the interaction between two electrons, in separate trapped strontium-88 ions. The two electrons exhibit spin entangle…

PhysicsQuantum technologyOpen quantum systemMultidisciplinaryQuantum mechanicsQuantum dynamicsQuantum sensorCavity quantum electrodynamicsQuantum simulatorQuantum entanglementElectronNature
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Quantum Computing Experiments with Cold Trapped Ions

2016

PhysicsQuantum technologyQuantum networkOpen quantum systemQubitQuantum dynamicsCavity quantum electrodynamicsQuantum simulatorAtomic physicsTrapped ion quantum computerQuantum Information
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Unidirectional reflection from an integrated "taiji" microresonator

2020

We study light transmission and reflection from an integrated microresonator device, formed by a circular microresonator coupled to a bus waveguide, with an embedded S-shaped additional crossover waveguide element that selectively couples counter-propagating modes in a propagation-direction-dependent way. The overall shape of the device resembles a "taiji"symbol, hence its name. While Lorentz reciprocity is preserved in transmission, the peculiar geometry allows us to exploit the non-Hermitian nature of the system to obtain high-contrast unidirectional reflection with negligible reflection for light incident in one direction and a significant reflection in the opposite direction.

PhysicsReciprocity; photonic device; microcavityLight transmissionbusiness.industryLorentz transformationCrossoverPhysics::Optics02 engineering and technologyÒptica021001 nanoscience & nanotechnology01 natural sciencesAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materials010309 opticssymbols.namesakeOpticsReciprocity (electromagnetism)0103 physical sciencessymbols0210 nano-technologybusiness
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Dynamical quantum repeater using cavity-QED and optical coherent states

2013

In the framework of cavity QED, we propose a quantum repeater scheme that uses coherent light and atoms coupled to optical cavities. In contrast to conventional schemes, we exploit solely the cavity QED evolution for the entire quantum repeater scheme and, thus, avoid any explicit execution of quantum logical gates. The entanglement distribution between the repeater nodes is realized with the help of pulses of coherent light interacting with the atom-cavity system in each repeater node. In our previous paper [D. Gonta and P. van Loock, Phys. Rev. A 86, 052312 (2012)], we already proposed a dynamical protocol to purify a bipartite entangled state using the evolution of atomic chains coupled …

PhysicsRepeaterQuantum PhysicsCavity quantum electrodynamicsPhysics::OpticsFOS: Physical sciencesQuantum entanglementAtomic and Molecular Physics and OpticsQuantum mechanicsLogic gateCoherent statesNode (circuits)Quantum information scienceQuantum Physics (quant-ph)Quantum
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Evidence of electrical activity on Titan drawn from the Schumann resonances sent by Huygens probe

2008

Abstract A procedure is shown for extracting weak resonances from the responses of electromagnetic systems excited by electric discharges. The procedure, based on analysis of the late-time system response, is first checked using an analytical function and later with the data for the electric field generated by the computational simulation of Titan's atmosphere using the Transmission Line Matrix (TLM) method. Finally, the low frequency spectrum of the natural electric field in Titan's atmosphere sent by the mutual impedance sensor (MIP) included in the Huygens probe is analyzed employing this technique. The MIP sensor was initially designed to measure the horizontal component of the electric…

PhysicsSchumann resonancesbusiness.industryAstronomy and AstrophysicsLow frequencyComputational physicsAzimuthOpticsSpace and Planetary ScienceTransmission lineElectric fieldElectromagnetic cavityIonospherebusinessOrder of magnitudeIcarus
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