Search results for "Classical limit"

showing 8 items of 28 documents

Group Foundations of Quantum and Classical Dynamics : Towards a Globalization and Classification of Some of Their Structures

1987

This paper is devoted to a constructiveand critical analysis of the structure of certain dynamical systems from a group manifold point of view recently developed. This approach is especially suitable for discussing the structure of the quantum theory, the classical limit, the Hamilton-Jacobi theory and other problems such as the definition and globalization of the Poincare-Cartan form which appears in the variational approach to higher order dynamical systems. At the same time, i t opens a way for the classification of all hamiltonian and lagrangian systems associated with suitably defined dynamical groups. Both classical and quantum dynamics are discussed, and examples of all the different…

PhysicsTheoretical physicssymbols.namesakeProjected dynamical systemDynamical systems theoryQuantum mechanicsQuantum dynamicssymbolsHamiltonian (quantum mechanics)QuantumClassical limitLinear dynamical systemHamiltonian systemFortschritte der Physik/Progress of Physics
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Exact Bethe-ansatz thermodynamics for the sine-Gordon model in the classical limit: Effect of long strings.

1986

PhysicsThermodynamic limitSineClassical limitBethe ansatzMathematical physicsPhysical review. B, Condensed matter
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Analytic Bergman operators in the semiclassical limit

2018

Transposing the Berezin quantization into the setting of analytic microlocal analysis, we construct approximate semiclassical Bergman projections on weighted $L^2$ spaces with analytic weights, and show that their kernel functions admit an asymptotic expansion in the class of analytic symbols. As a corollary, we obtain new estimates for asymptotic expansions of the Bergman kernel on $\mathbb{C}^n$ and for high powers of ample holomorphic line bundles over compact complex manifolds.

Pure mathematicsadjoint operatorsMicrolocal analysis32A2501 natural sciences[MATH.MATH-MP]Mathematics [math]/Mathematical Physics [math-ph]Limit (mathematics)Bergman projectionComplex Variables (math.CV)[MATH]Mathematics [math]Mathematics::Symplectic GeometryMathematical PhysicsBergman kernelMathematicsasymptotic expansionweighted L2-estimates58J40[MATH.MATH-CV]Mathematics [math]/Complex Variables [math.CV]Mathematical Physics (math-ph)16. Peace & justiceFunctional Analysis (math.FA)Mathematics - Functional Analysisasymptoticstheoremkernelanalytic pseudodifferential operator010307 mathematical physicsAsymptotic expansion47B35classical limitAnalysis of PDEs (math.AP)Toeplitz operatorGeneral Mathematics70H15Holomorphic functionFOS: Physical sciencesSemiclassical physicsKähler manifold[MATH.MATH-FA]Mathematics [math]/Functional Analysis [math.FA]analytic symbolsMathematics - Analysis of PDEskahler-metrics0103 physical sciencesFOS: Mathematics[MATH.MATH-AP]Mathematics [math]/Analysis of PDEs [math.AP]0101 mathematicsMathematics - Complex VariablesMathematics::Complex Variables010102 general mathematics32W25space35A27Kähler manifoldmicrolocal analysisToeplitz operatorquantizationsemiclassical analysis
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On a possible origin of quantum groups

1991

A Poisson bracket structure having the commutation relations of the quantum group SLq(2) is quantized by means of the Moyal star-product on C∞(ℝ2), showing that quantum groups are not exactly quantizations, but require a quantization (with another parameter) in the background. The resulting associative algebra is a strongly invariant nonlinear star-product realization of the q-algebra Uq(sl(2)). The principle of strong invariance (the requirement that the star-commutator is star-expressed, up to a phase, by the same function as its classical limit) implies essentially the uniqueness of the commutation relations of Uq(sl(2)).

Quantization (physics)Poisson bracketQuantum groupQuantum mechanicsAssociative algebraStatistical and Nonlinear PhysicsUniquenessInvariant (physics)QuantumMathematical PhysicsClassical limitMathematical physicsMathematicsLetters in Mathematical Physics
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MR3010675 Emamirad, Hassan; Rogeon, Philippe Semiclassical limit of Husimi function. Discrete Contin. Dyn. Syst. Ser. S 6 (2013), no. 3, 669–676. (Re…

2013

Settore MAT/05 - Analisi MatematicaSemiclassical limit Husimi function
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Small clusters with anisotropic antiferromagnetic exchange in a magnetic field

2004

We consider small symmetric clusters of magnetic atoms (spins) with anisotropic exchange interaction between the atoms in a magnetic field at zero temperature. The inclusion of the anisotropy leads to a wealth of different phases as a function of the applied magnetic field. These are not phases in the thermodynamic sense with critical properties but rather physical structures with different arrangements of the spins and hence different symmetries. We study the spatial symmetry of these phases, for the classical and quantum cases. Results are presented mainly for three frustrated systems, the triangle, the tetrahedron and the five-atom ring, which have many interesting features. In the class…

SpinsCondensed matter physicsChemistryMagnetismExchange interactionAntiferromagnetismGeneral Materials ScienceQuantum phasesCondensed Matter PhysicsClassical limitSpin-½Magnetic fieldJournal of Physics: Condensed Matter
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Strain gradient plasticity, strengthening effects and plastic limit analysis

2010

Abstract Within the framework of isotropic strain gradient plasticity, a rate-independent constitutive model exhibiting size dependent hardening is formulated and discussed with particular concern to its strengthening behavior. The latter is modelled as a (fictitious) isotropic hardening featured by a potential which is a positively degree-one homogeneous function of the effective plastic strain and its gradient. This potential leads to a strengthening law in which the strengthening stress, i.e. the increase of the plastically undeformed material initial yield stress, is related to the effective plastic strain through a second order PDE and related higher order boundary conditions. The plas…

Ultimate loadStrengthening effectsApplied MathematicsMechanical EngineeringConstitutive equationMechanicsStrain ratePlasticityStrain hardening exponentCondensed Matter PhysicsGradient plasticityClassical limitPlastic limit analysisNonlocal continuum thermodynamicsClassical mechanicsMaximum principleMaterials Science(all)Mechanics of MaterialsModelling and SimulationModeling and SimulationHardening (metallurgy)General Materials ScienceMathematicsInternational Journal of Solids and Structures
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High precision numerical approach for Davey–Stewartson II type equations for Schwartz class initial data

2020

We present an efficient high-precision numerical approach for Davey–Stewartson (DS) II type equa- tions, treating initial data from the Schwartz class of smooth, rapidly decreasing functions. As with previous approaches, the presented code uses discrete Fourier transforms for the spatial dependence and Driscoll’s composite Runge–Kutta method for the time dependence. Since DS equations are non-local, nonlinear Schrödinger equations with a singular symbol for the non-locality, standard Fourier methods in practice only reach accuracy of the order of 10−6or less for typical examples. This was previously demonstrated for the defocusing integrable case by comparison with a numerical approach for …

semiclassical limitClass (set theory)General MathematicsGeneral Physics and AstronomywaveType (model theory)01 natural sciences010305 fluids & plasmasDavey-Stewartson equationsevolution0103 physical sciencesApplied mathematics[MATH]Mathematics [math]0101 mathematicsMathematicsInverse scattering transform010102 general mathematicsGeneral EngineeringD-bar problemsFourier spectral methodsimulationkadomtsev-petviashviliinverse scattering transformpacketssystemsSolitonsolitonblow-upProceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences
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