Search results for "SIMULATION"

showing 10 items of 5095 documents

Coupled Susy, pseudo-bosons and a deformed su(1, 1) Lie algebra

2021

Abstract In a recent paper a pair of operators a and b satisfying the equations a † a = bb † + γ 1 and aa † = b † b + δ 1 , has been considered, and their nature of ladder operators has been deduced and analyzed. Here, motivated by the spreading interest in non self-adjoint operators in quantum mechanics, we extend this situation to a set of four operators, c, d, r and s, satisfying dc = rs + γ 1 and cd = sr + δ 1 , and we show that they are also ladder operators. We show their connection with biorthogonal families of vectors and with the so-called D -pseudo bosons. Some examples are discussed.

Statistics and ProbabilityPhysicsCoupled SUSY quantum mechanicsGeneral Physics and AstronomyStatistical and Nonlinear PhysicsSupersymmetryLadder operatorModeling and SimulationBiorthogonal systemLadder operatorsLie algebraComputingMethodologies_DOCUMENTANDTEXTPROCESSINGPseudo-bosonsConnection (algebraic framework)Settore MAT/07 - Fisica MatematicaMathematical PhysicsBosonMathematical physics
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Electron correlation in metal clusters, quantum dots and quantum rings

2009

This short review presents a few case studies of finite electron systems for which strong correlations play a dominant role. In simple metal clusters, the valence electrons determine stability and shape of the clusters. The ionic skeleton of alkali metals is soft, and cluster geometries are often solely determined by electron correlations. In quantum dots and rings, the electrons may be confined by an external electrostatic potential, formed by a gated heterostructure. In the low density limit, the electrons may form so-called Wigner molecules, for which the many-body quantum spectra reveal the classical vibration modes. High rotational states increase the tendency for the electrons to loca…

Statistics and ProbabilityPhysicsElectronic correlationStrongly Correlated Electrons (cond-mat.str-el)General Physics and AstronomyIonic bondingFOS: Physical sciencesStatistical and Nonlinear PhysicsElectronQuantum Hall effectMolecular physicsElectron localization functionCondensed Matter - Strongly Correlated ElectronsQuantum dotModeling and SimulationValence electronQuantumMathematical Physics
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Self-consistent Euclidean-random-matrix theory

2019

Statistics and ProbabilityPhysicsGeneral Physics and AstronomyStatistical and Nonlinear PhysicsSelf consistentsymbols.namesakeModeling and SimulationEuclidean geometrysymbolsBoson peakRayleigh scatteringRandom matrixMathematical PhysicsMathematical physicsJournal of Physics A: Mathematical and Theoretical
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Slow-light solitons

2007

We investigate propagation of slow-light solitons in atomic media described by the nonlinear � -model. Under a physical assumption, appropriate to the slow light propagation, we reduce the � -scheme to a simplified nonlinear model, which is also relevant to 2D dilatonic gravity. Exact solutions describing various regimes of stopping slow-light solitons can then be readily derived.

Statistics and ProbabilityPhysicsGravity (chemistry)General Physics and AstronomyStatistical and Nonlinear PhysicsNon linear modelSlow lightNonlinear systemClassical mechanicsExact solutions in general relativityModeling and SimulationNonlinear modelDilatonSolitonMathematical PhysicsJournal of Physics A: Mathematical and Theoretical
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Quantum Ring in a Magnetic Field: High Harmonic Generation and NOT Logic Gate

2020

The effect of a static magnetic field on the high harmonic generation (HHG) from a quantum ring driven by one laser polarized along the x-axis is studied. The spin polarization (Formula presented.) and the temporal emission of the harmonics are studied by varying the intensity of the magnetic field and it is shown how these results have a significant technological impact in computer technology; in fact a boolean algebra can be implemented by assigning 0 and 1 values to low and high pulse intensities of the emitted harmonics and logic gates like the NOT can be created.

Statistics and ProbabilityPhysicsNumerical AnalysisRing (mathematics)Multidisciplinaryhigh harmonic generationquantum computingMagnetic fieldModeling and SimulationQuantum mechanicsLogic gatelogic gatesHigh harmonic generationnanoringsQuantumQuantum computerAdvanced Theory and Simulations
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Quantum graphs with mixed dynamics: the transport/diffusion case

2013

We introduce a class of partial differential equations on metric graphs associated with mixed evolution: on some edges we consider diffusion processes, on other ones transport phenomena. This yields a system of equations with possibly nonlocal couplings at the boundary. We provide sufficient conditions for these to be governed by a contractive semigroup on a Hilbert space naturally associated with the system. We show that our setting is also adequate to discuss specific systems of diffusion equations with boundary delays.

Statistics and ProbabilityPhysicsPartial differential equationSemigroupMathematical analysis34B45 47D06 47N50Hilbert spaceFOS: Physical sciencesGeneral Physics and AstronomyBoundary (topology)Statistical and Nonlinear PhysicsMathematical Physics (math-ph)System of linear equationssymbols.namesakeMathematics - Analysis of PDEsModeling and SimulationQuantum graphFOS: MathematicssymbolsDiffusion (business)Transport phenomenaMathematical PhysicsAnalysis of PDEs (math.AP)
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Coherent states: a contemporary panorama

2012

Coherent states (CS) of the harmonic oscillator (also called canonical CS) were introduced in 1926 by Schr?dinger in answer to a remark by Lorentz on the classical interpretation of the wave function. They were rediscovered in the early 1960s, first (somewhat implicitly) by Klauder in the context of a novel representation of quantum states, then by Glauber and Sudarshan for the description of coherence in lasers. Since then, CS have grown into an extremely rich domain that pervades almost every corner of physics and have also led to the development of several flourishing topics in mathematics. Along the way, a number of review articles have appeared in the literature, devoted to CS, notably…

Statistics and ProbabilityPhysicsPure mathematics010308 nuclear & particles physicsMathematics::History and Overview[PHYS.MPHY]Physics [physics]/Mathematical Physics [math-ph]General Physics and AstronomyStatistical and Nonlinear PhysicsQuantum entanglement01 natural sciencesPhysics::History of PhysicsGroup representationQuantization (physics)Theoretical physicsQuantum state[MATH.MATH-MP]Mathematics [math]/Mathematical Physics [math-ph]Modeling and Simulation0103 physical sciencesCoherent statesQuantum gravityQuantum information010306 general physicsMathematical PhysicsComputingMilieux_MISCELLANEOUSQuantum computer
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A criterion for entanglement in two two-level systems

2007

We prove a necessary and sufficient condition for the occurrence of entanglement in two two-level systems, simple enough to be of experimental interest. Our results are illustrated in the context of a spin star system analyzing the exact entanglement evolution of the central couple of spins.

Statistics and ProbabilityPhysicsQuantum PhysicsFOS: Physical sciencesGeneral Physics and AstronomyStatistical and Nonlinear PhysicsObservableQuantum entanglementQuantum PhysicsSquashed entanglementMultipartite entanglementClassical mechanicsSimple (abstract algebra)Modeling and SimulationsystemsStatistical physicsQuantum Physics (quant-ph)Mathematical PhysicsSpin-½
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Cavity losses for the dissipative Jaynes–Cummings Hamiltonian beyond rotating wave approximation

2007

A microscopic derivation of the master equation for the Jaynes-Cummings model with cavity losses is given, taking into account the terms in the dissipator which vary with frequencies of the order of the vacuum Rabi frequency. Our approach allows to single out physical contexts wherein the usual phenomenological dissipator turns out to be fully justified and constitutes an extension of our previous analysis [Scala M. {\em et al.} 2007 Phys. Rev. A {\bf 75}, 013811], where a microscopic derivation was given in the framework of the Rotating Wave Approximation.

Statistics and ProbabilityPhysicsQuantum PhysicsGeneral Physics and AstronomyDissipatorFOS: Physical sciencesStatistical and Nonlinear Physics01 natural sciences010305 fluids & plasmassymbols.namesakeJaynes–Cummings modelModeling and SimulationQuantum mechanics0103 physical sciencesMaster equationsymbolsDissipative systemRotating wave approximation010306 general physicsHamiltonian (quantum mechanics)Quantum Physics (quant-ph)Mathematical PhysicsRabi frequency
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Non linear pseudo-bosons versus hidden Hermiticity

2011

The increasingly popular concept of a hidden Hermiticity of operators (i.e., of their Hermiticity with respect to an {\it ad hoc} inner product in Hilbert space) is compared with the recently introduced notion of {\em non-linear pseudo-bosons}. The formal equivalence between these two notions is deduced under very general assumptions. Examples of their applicability in quantum mechanics are discussed.

Statistics and ProbabilityPhysicsQuantum PhysicsGeneral Physics and AstronomyFOS: Physical sciencesStatistical and Nonlinear PhysicsMathematical Physics (math-ph)Functional Analysis (math.FA)Mathematics - Functional AnalysisNonlinear systemTheoretical physicsModeling and Simulation46C15 46N50 81Q12 81Q80FOS: Mathematicspseudo-bosonsQuantum Physics (quant-ph)Settore MAT/07 - Fisica MatematicaDynamic and formal equivalenceMathematical PhysicsBoson
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