Search results for " Opera"

showing 10 items of 3606 documents

Dynamical Casimir-Polder force on a partially dressed atom near a conducting wall

2010

We study the time evolution of the Casimir-Polder force acting on a neutral atom in front of a perfectly conducting plate, when the system starts its unitary evolution from a partially dressed state. We solve the Heisenberg equations for both atomic and field quantum operators, exploiting a series expansion with respect to the electric charge and an iterative technique. After discussing the behaviour of the time-dependent force on an initially partially-dressed atom, we analyze a possible experimental scheme to prepare the partially dressed state and the observability of this new dynamical effect.

Quantum electrodynamicsPhysicsCondensed Matter::Quantum GasesQuantum PhysicsField (physics)Dynamical Casimir effectTime evolutionFOS: Physical sciencesCasimir-Polder forceElectric chargeAtomic and Molecular Physics and OpticsMathematical OperatorsCasimir effectClassical mechanicsQuantum mechanicsAtomPhysics::Atomic Physics[PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph]Series expansionQuantum Physics (quant-ph)Heisenberg picture
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Quantum groups and quantum complete integrability: Theory and experiment

2008

Quantum groupQuantum mechanicsBraid groupRydberg atomQuantum operationQuantum dissipationHopf algebraQuantumMicrowave cavityMathematics
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Radial coherent states for Dirac hydrogen-like atom

2002

In this paper we use an su(2) representation of the radial eigenfunction of the Dirac hydrogen-like atom and we build the Glauber coherent states and the displacement operator coherent states. We also calculate the average values of some observables corresponding to these states.

Quantum opticsPhysicsHydrogen-like atomPhysics and Astronomy (miscellaneous)Dirac (software)Displacement operatorEigenfunctionAtomic and Molecular Physics and Opticssymbols.namesakeQuantum mechanicsQuantum electrodynamicsDirac equationsymbolsCoherent statesDirac seaJournal of Optics B: Quantum and Semiclassical Optics
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Quantum repulsive Nonlinear Schrödinger models and their ‘Superconductivity’

1995

Abstract The fundamental role played by the quantum repulsive Nonlinear Schrodinger (NLS) equation in the evolution of our understanding of the phenomenon of superconductivity in appropriate metals at very low temperatures is surveyed. The first major work was that in 1947 by N. N. Bogoliubov, who studied the very physical 3-space-dimensions problem and super fluidity; and the survey takes the form of an actual dedication to that outstanding scientist who died four years ago. The 3-space-dimensions NLS equation is not integrable either classically or quantum mechanically. But a number of recently discovered closely related lattices in one space dimension (one space plus one time dimension) …

Quantum phase transitionPhysicsGeneral MathematicsApplied MathematicsQuantum dynamicsGeneral Physics and AstronomyStatistical and Nonlinear Physicssymbols.namesakeTheoretical physicsQuantum mechanicsQuantum processsymbolsQuantum operationQuantum inverse scattering methodQuantum dissipationQuantumSchrödinger's catChaos, Solitons & Fractals
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Holonomic Quantum Computation

2008

In this brief review we describe the idea of holonomic quantum computation. The idea of geometric phase and holonomy is introduced in a general way and we provide few examples that should help the reader understand the issues involved.

Quantum technologyAlgebraPhysicsQuantum PhysicsOpen quantum systemClassical mechanicsHolonomicQuantum error correctionQuantum processQuantum operationQuantum algorithmHolonomy Quantum computationQuantum computer
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Steering distillation processes through quantum Zeno dynamics

2005

A quantum system in interaction with a repeatedly measured one undergoes a nonunitary time evolution and is pushed into a subspace substantially determined by the two-system coupling. The possibility of suitably modifying such an evolution through quantum Zeno dynamics (i.e., the generalized quantum Zeno effect) addressing the system toward an a priori decided target subspace is illustrated. Applications and their possible realizations in the context of trapped ions are also discussed.

Quantum technologyPhysicsQuantum probabilityOpen quantum systemQuantum discordClassical mechanicsQuantum processQuantum dynamicsQuantum operationQuantum PhysicsAtomic and Molecular Physics and OpticsQuantum Zeno effectPhysical Review A
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Low-energy couplings of QCD from current correlators near the chiral limit

2004

We investigate a new numerical procedure to compute fermionic correlation functions at very small quark masses. Large statistical fluctuations, due to the presence of local ``bumps'' in the wave functions associated with the low-lying eigenmodes of the Dirac operator, are reduced by an exact low-mode averaging. To demonstrate the feasibility of the technique, we compute the two-point correlator of the left-handed vector current with Neuberger fermions in the quenched approximation, for lattices with a linear extent of L~1.5 fm, a lattice spacing a~0.09 fm, and quark masses down to the epsilon-regime. By matching the results with the corresponding (quenched) chiral perturbation theory expres…

QuarkNuclear and High Energy PhysicsChiral perturbation theoryCurrent (mathematics)High Energy Physics::LatticeFOS: Physical sciencesQuenched approximationStatistical fluctuationsDirac operatorsymbols.namesakechiral Lagrangianslattice QCDHigh Energy Physics - Phenomenology (hep-ph)High Energy Physics - Latticelattice gauge field theoriesPhysicsQuantum chromodynamicsHigh Energy Physics - Lattice (hep-lat)FísicaFermionQCDFIS/02 - FISICA TEORICA MODELLI E METODI MATEMATICIHigh Energy Physics - PhenomenologyLattice gauge theoryQuantum electrodynamicssymbols
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Effect of relativistic kinematics on the stability of multiquarks

2021

We discuss whether the bound nature of multiquark states in quark models could benefit from relativistic effects on the kinetic energy operator. For mesons and baryons, relativistic corrections to the kinetic energy lead to lower energies, and thus call for a retuning of the parameters of the model. For multiquark states, as well as their respective thresholds, a comparison is made of the results obtained with non-relativistic and relativistic kinetic energy. It is found that the binding energy is lower in the relativistic case. In particular, $QQ\bar q\bar q$ tetraquarks with double heavy flavor become stable for a larger ratio of the heavy to light quark masses; and the all-heavy tetraqua…

QuarkParticle physicsMesonBinding energyNuclear TheoryFOS: Physical scienceseffect: relativisticKinetic energymeson01 natural sciencesHigh Energy Physics - Phenomenology (hep-ph)0103 physical sciencesheavy quarkStrong Interactions010306 general physicscorrection: relativisticPhysicsenergy: kinetic010308 nuclear & particles physicsBINDING-ENERGYquark model: nonrelativisticHigh Energy Physics::Phenomenologyenergy: operatortetraquarkbinding energyEnergy operatorBaryonbaryonquark: massHigh Energy Physics - Phenomenologykinematics: relativisticmultiquark: stability[PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph]TetraquarkHigh Energy Physics::ExperimentRelativistic quantum chemistry
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Nonperturbative renormalization in coordinate space

2003

We present an exploratory study of a gauge-invariant non-perturbative renormalization technique. The renormalization conditions are imposed on correlation functions of composite operators in coordinate space on the lattice. Numerical results for bilinears obtained with overlap and O(a)-improved Wilson fermions are presented. The measurement of the quark condensate is also discussed.

QuarkPhysicsNuclear and High Energy PhysicsHigh Energy Physics::LatticeHigh Energy Physics - Lattice (hep-lat)field theory gauge theory lattice renormalizationFOS: Physical sciencesFísicaParticle Physics - LatticeFermionAtomic and Molecular Physics and OpticsComposite operatorRenormalizationFIS/02 - FISICA TEORICA MODELLI E METODI MATEMATICIHigh Energy Physics - LatticeLattice (order)Non-perturbativeCoordinate spaceMathematical physics
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Dirac operator spectrum in the linear σ model

2003

Abstract The spectrum of the Dirac operator for the linear σ Model with quarks in the large Nc approximation is presented. The spectral density can be related to the chiral condensate which is obtained using renormalization group flow equations. For small eigenvalues, the Banks-Casher relation and the vanishing linear correaction are recovered. The spectrum beyond the low energy regime is discussed.

QuarkPhysicsNuclear and High Energy PhysicsMomentum operatorHigh Energy Physics::LatticeSpectrum (functional analysis)Spectral densityDirac operatorsymbols.namesakeSpectral asymmetryQuantum mechanicssymbolsDirac seaEigenvalues and eigenvectorsProgress in Particle and Nuclear Physics
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