Search results for " approximation"

showing 10 items of 575 documents

Local correlation functional for electrons in two dimensions

2008

We derive a local approximation for the correlation energy in two-dimensional electronic systems. In the derivation we follow the scheme originally developed by Colle and Salvetti for three dimensions, and consider a Gaussian approximation for the pair density. Then, we introduce an ad-hoc modification which better accounts for both the long-range correlation, and the kinetic-energy contribution to the correlation energy. The resulting functional is local, and depends parametrically on the number of electrons in the system. We apply this functional to the homogeneous electron gas and to a set of two-dimensional quantum dots covering a wide range of electron densities and thus various amount…

PhysicsElectronic correlationStrongly Correlated Electrons (cond-mat.str-el)FOS: Physical sciences02 engineering and technologyElectron021001 nanoscience & nanotechnologyCondensed Matter Physics01 natural sciencesElectronic Optical and Magnetic MaterialsRange (mathematics)Condensed Matter - Strongly Correlated ElectronsCorrelation functionQuantum mechanics0103 physical sciencesCorrelation integralDensity functional theoryStatistical physicsLocal-density approximation010306 general physics0210 nano-technologyFermi gas
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Vibrational excitations in systems with correlated disorder

2007

We investigate a $d$-dimensional model ($d$ = 2,3) for sound waves in a disordered environment, in which the local fluctuations of the elastic modulus are spatially correlated with a certain correlation length. The model is solved analytically by means of a field-theoretical effective-medium theory (self-consistent Born approximation) and numerically on a square lattice. As in the uncorrelated case the theory predicts an enhancement of the density of states over Debye's $\omega^{d-1}$ law (``boson peak'') as a result of disorder. This anomay becomes reinforced for increasing correlation length $\xi$. The theory predicts that $\xi$ times the width of the Brillouin line should be a universal …

PhysicsFOS: Physical sciencesDisordered Systems and Neural Networks (cond-mat.dis-nn)Condensed Matter - Disordered Systems and Neural NetworksCondensed Matter PhysicsSquare latticeBrillouin zoneCondensed Matter - Other Condensed Mattersymbols.namesakeLattice (module)Quantum mechanicsDensity of statessymbolsWavenumberBorn approximationScalingOther Condensed Matter (cond-mat.other)Debye
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Evanescent light scattering: The validity of the dipole approximation

1998

In near-field optics the very concept of dipole is often used to represent either an elementary source or a scattering center. The most simple and widely used example is that of a small spherical particle whose polarizability is assumed to conform to the Clausius-Mossotti relation. While in conventional, far-field optics this approximation is known to be valid provided that the object is much smaller than the wavelength, its extension to near-field optics requires some precautions. Indeed, in the case of the scattering, by a spherical object, of an evanescent field generated, for instance, by total internal reflection or by a surface polariton, the strong-field gradient may increase the con…

PhysicsField (physics)Scatteringbusiness.industryDiscrete dipole approximationLight scatteringsymbols.namesakeDipoleOpticsPolarizabilityQuantum electrodynamicssymbolsRayleigh scatteringbusinessMultipole expansionPhysical Review B
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New Results on Multiphoton Free-Free Transitions

1988

Recently some of the present authors have reported on calculations concerning free-free transitions in the presence of very strong laser fields,1 in which a number of peculiar features were clearly displayed (among others, well pronounced maxima in the total cross sections and an oscillatory structure). In particular, those calculations concerned total cross sections of direct and inverse multiphoton bremsstrahlung, for several numbers of exchanged photons as functions of the field intensity. Figs. 1 and 2 show a sample of the typical results reported in Ref. 1.

PhysicsField intensityPhotonlawBremsstrahlungInverseAtomic physicsLaserMaximaSample (graphics)Eikonal approximationlaw.invention
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Floquet perturbative analysis for STIRAP beyond the rotating wave approximation

2009

We present a perturbative analysis of Floquet eigenstates in the context of two delayed laser processes (STIRAP) in three level systems. We show the efficiency of a systematic perturbative development which can be applied as long as no non-linear resonances occur.

PhysicsFloquet theorylawQuantum electrodynamicsQuantum mechanicsRotating wave approximationContext (language use)LaserAtomic and Molecular Physics and OpticsThree levelEigenvalues and eigenvectorslaw.inventionOptics Express
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On the interdependence between ground and one-phonon RPA states

1998

Working within a schematic model and in a boson formalism, we provide a descrip tion of the ground and first-excited states of a nuclear system in terms of two independent phonon operators. The description reveals itself quite effective in reproducing the energies of the states. A comparison between these two phonon operators allows us to localize a region where a correct description of these states is compatible with the Random Phase Approximation (RPA) requirement of a single phonon. This region is found to coincide approximately with that spanned by the standard RPA. Outside this region, the two phonons start differing rapidly therefore making the application of the RPA scheme impossible…

PhysicsFormalism (philosophy of mathematics)PhononQuantum mechanicsQuantum electrodynamicsNuclear TheoryGeneral Physics and AstronomyCondensed Matter::Strongly Correlated ElectronsSchematic modelNuclear systemRandom phase approximationBosonEurophysics Letters (EPL)
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Gaussian imaging transformation for the paraxial Debye formulation of the focal region in a low-Fresnel-number optical system

2000

The Debye formulation of focused fields has been systematically used to evaluate, for example, the point-spread function of an optical imaging system. According to this approximation, the focal wave field exhibits some symmetries about the geometrical focus. However, certain discrepancies arise when the Fresnel number, as viewed from focus, is close to unity. In that case, we should use the Kirchhoff formulation to evaluate accurately the three-dimensional amplitude distribution of the field in the focal region. We make some important remarks regarding both diffraction theories. In the end we demonstrate that, in the paraxial regime, given a defocused transverse pattern in the Debye approxi…

PhysicsFresnel zonePlane (geometry)business.industryParaxial approximationAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic Materialssymbols.namesakeCardinal pointClassical mechanicsOpticsThin lenssymbolsFresnel numberComputer Vision and Pattern RecognitionFocus (optics)businessDebyeJournal of the Optical Society of America. A, Optics, image science, and vision
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GW quasiparticle energies of atoms in strong magnetic fields

2019

Quasiparticle energies of the atoms H–Ne have been computed in the GW approximation in the presence of strong magnetic fields with field strengths varying from 0 to 0.25 atomic units (0.25 B 0 =0.25 ℏe −1 a −2 0 ≈58 763 0.25 B0=0.25 ℏe−1a0−2≈58 763 T). The GW quasiparticle energies are compared with equation-of-motion ionization-potential (EOM-IP) coupled-cluster singles-and-doubles (CCSD) calculations of the first ionization energies. The best results are obtained with the evGW@PBE0 method, which agrees with the EOM-IP-CCSD model to within about 0.20 eV. Ionization potentials have been calculated for all atoms in the series, representing the first systematic study of ionization potentials …

PhysicsGW approximation010304 chemical physicsField (physics)General Physics and AstronomyField strengthElectron010402 general chemistry01 natural sciences7. Clean energy0104 chemical sciencesMagnetic fieldIonization0103 physical sciencesPhysics::Atomic and Molecular ClustersQuasiparticlePhysics::Atomic PhysicsPhysical and Theoretical ChemistryAtomic physicsIonization energyThe Journal of Chemical Physics
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MBPT for the Green's function

2013

PhysicsGW approximationsymbols.namesakeSelf-energyPolarizabilityQuantum mechanicsMany-body theorysymbolsNon-equilibrium thermodynamicsFeynman diagramTopological conjugacyQuantum
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Theory of vibrational anomalies in glasses

2015

Abstract The theory of elasticity with spatially fluctuating elastic constants (heterogeneous-elasticity theory) is reviewed. It is shown that the vibrational anomalies associated with the boson peak can be qualitatively and quantitatively explained in terms of this theory. Two versions of a mean-field theory for solving the stochastic equation of motion are presented: the coherent-potential approximation (CPA) and the self-consistent Born approximation (SCBA). It is shown that the latter is included in the former in the Gaussian and weak-disorder limit. We are able to discuss and explain cases in which the change of the vibrational spectrum by varying an external parameter can be accounted…

PhysicsGaussianCondensed Matter Physics; ceramics and composites; electronic optical and magnetic materials; Materials Chemistry; metals and alloysEquations of motionVibrational spectrumCondensed Matter PhysicsDebye frequencyElectronic Optical and Magnetic Materialssymbols.namesakeQuantum mechanicsMaterials ChemistryCeramics and CompositessymbolsBoson peakElasticity (economics)Born approximationElastic modulus
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