Search results for "Pole approximation"

showing 10 items of 16 documents

Two-LO-Phonon Resonant Raman Scattering in II-VI Semiconductors

1996

Recently, absolute values of socond-order Raman scattering efficiency have been measured around the E 0 and E 0 + Δ 0 critical points of several II-VI semiconductor compounds. The measurements were perfomed in the z(x,x)z backscattering configuration on (001) (ZnSe and ZnTe) and (110) (CdTe) surfaces. They show strong incoming and outgoing resonances around the baud gap and larger scattering efficiencies as compaered to III-V compounds. A theoretical model which includes excitons as intermediate states in the Raman process is shown to give a very good quantitative agreement between theory and experiment. Only a small discrepancy exists, while III-V compounds the discrepancies were close to …

Condensed matter physicsScatteringPhononChemistryExcitonDiscrete dipole approximationCondensed Matter PhysicsElectronic Optical and Magnetic Materialssymbols.namesakeX-ray Raman scatteringsymbolsAtomic physicsRaman spectroscopyRaman scatteringOrder of magnitude
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Surface Lattice Resonances in Self-Assembled Arrays of Monodisperse Ag Cuboctahedra

2019

Plasmonic metal nanoparticles arranged in periodic arrays can generate surface lattice plasmon resonances (SLRs) with high Q-factors. These collective resonances are interesting because the associated electromagnetic field is delocalized throughout the plane of the array, enabling applications such as biosensing and nanolasing. In most cases such periodic nanostructures are created via top-down nanofabrication processes. Here we describe a capillary-force-assisted particle assembly method (CAPA) to assemble monodisperse single-crystal colloidal Ag cuboctahedra into nearly defect-free >1 cm2 hexagonal lattices. These arrays are large enough to be measured with conventional ultraviolet-visibl…

Electromagnetic fieldMaterials scienceGeneral EngineeringPhysics::OpticsGeneral Physics and AstronomyNanoparticle02 engineering and technologyDiscrete dipole approximation010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesMolecular physics0104 chemical sciencesDelocalized electronNanolithographyLattice (order)General Materials Science0210 nano-technologySpectroscopyPlasmonACS Nano
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Single-particle properties of the Hubbard model in a novel three-pole approximation

2017

We study the 2D Hubbard model using the Composite Operator Method within a novel three-pole approximation. Motivated by the long-standing experimental puzzle of the single-particle properties of the underdoped cuprates, we include in the operatorial basis, together with the usual Hubbard operators, a field describing the electronic transitions dressed by the nearest-neighbor spin fluctuations, which play a crucial role in the unconventional behavior of the Fermi surface and of the electronic dispersion. Then, we adopt this approximation to study the single-particle properties in the strong coupling regime and find an unexpected behavior of the van Hove singularity that can be seen as a prec…

Hubbard modelSingle-particle propertiesField (physics)Hubbard modelThree-pole approximationVan Hove singularityFOS: Physical sciences02 engineering and technology01 natural sciencesCondensed Matter - Strongly Correlated ElectronsQuantum mechanicsCondensed Matter::Superconductivity0103 physical sciencesCuprateElectrical and Electronic Engineering010306 general physicsSpin-½PhysicsCondensed matter physicsStrongly Correlated Electrons (cond-mat.str-el)Strongly correlated electron systemsFermi surface021001 nanoscience & nanotechnologyCondensed Matter PhysicsComposite Operator MethodElectronic Optical and Magnetic MaterialsComposite Operator Method; Hubbard model; Operatorial approach; Single-particle properties; Strongly correlated electron systems; Three-pole approximation;Operatorial approachStrongly correlated materialCondensed Matter::Strongly Correlated Electrons0210 nano-technologyPseudogap
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Kinetics of doublet formation in bicomponent magnetic suspensions: The role of the magnetic permeability anisotropy

2017

Micron-sized particles (microbeads) dispersed in a suspension of magnetic nanoparticles, i.e., ferrofluids, can be assembled into different types of structures upon application of an externalmagnetic field. This paper is devoted to theoretical modeling of a relative motion of a pair of microbeads (either soft ferromagnetic or diamagnetic) in the ferrofluid under the action of applied uniform magnetic field which induces magnetic moments in the microbeads making them attracting to each other. The model is based on a point-dipole approximation for the magnetic interactions between microbeads mediated by the ferrofluid; however, the ferrofluid is considered to possess an anisotropic magnetic p…

MAGNETIC PERMEABILITYPOINT-DIPOLE APPROXIMATIONFerrofluidMaterials scienceMagnetism02 engineering and technology01 natural sciencesMAGNETISMPhysics::Fluid DynamicsTHEORETICAL MODELINGUNIFORM MAGNETIC FIELDS0103 physical sciencesNANOPARTICLES[PHYS.COND]Physics [physics]/Condensed Matter [cond-mat]PERMEABILITY ANISOTROPY010306 general physicsSUSPENSIONS (COMPONENTS)ANISOTROPYEXTERNAL MAGNETIC FIELDMagnetic momentMICRON-SIZED PARTICLESMAGNETIC FIELDSMAGNETIC FLUIDS021001 nanoscience & nanotechnologyMagnetic fieldMAGNETIC INTERACTIONSMagnetic anisotropySUSPENSIONS (FLUIDS)FerromagnetismMAGNETIC MOMENTSChemical physicsMAGNETIC NANO-PARTICLESNANOMAGNETICSMAGNETIC ANISOTROPYDiamagnetismMagnetic nanoparticles0210 nano-technology[PHYS.COND.CM-SCM]Physics [physics]/Condensed Matter [cond-mat]/Soft Condensed Matter [cond-mat.soft]ANISOTROPIC MEDIA
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Measurement of the b hadron lifetime with the dipole method

1993

A measurement of the average lifetime of b hadrons has been performed with the dipole method on a sample of 260000 hadronic Z decays recorded with the ALEPH detector during 1991. The dipole is the distance between the vertices built in the opposite hemispheres. The mean dipole is extracted from all the events without attempting b enrichment. Comparing the average of the data dipole distribution with a Monte Carlo calibration curve obtained with different b lifetimes, an average b hadron lifetime of 1.51 +/- 0.08 ps is extracted. RI ANTONELLI, ANTONELLA/C-6238-2011; Buttar, Craig/D-3706-2011; Stahl, Achim/E-8846-2011; Passalacqua, Luca/F-5127-2011; Murtas, Fabrizio/B-5729-2012; St.Denis, Ric…

Nuclear and High Energy Physics[PHYS.HEXP] Physics [physics]/High Energy Physics - Experiment [hep-ex]Calibration curveElectron–positron annihilationMonte Carlo methodHadronElementary particleDiscrete dipole approximation01 natural sciencesinformationNuclear physicsALEPH Experiment0103 physical sciences[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]mutualisation.010306 general physicsALEPH experimentPhysics010308 nuclear & particles physicsPhysicsmediologyterritoryDipoleHigh Energy Physics::Experimentterritorial intelligenceParticle Physics - Experiment
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Absorption Properties of Metal–Semiconductor Hybrid Nanoparticles

2011

The optical response of hybrid metal-semiconductor nanoparticles exhibits different behaviors due to the proximity between the disparate materials. For some hybrid systems, such as CdS-Au matchstick-shaped hybrids, the particles essentially retain the optical properties of their original components, with minor changes. Other systems, such as CdSe-Au dumbbell-shaped nanoparticles, exhibit significant change in the optical properties due to strong coupling between the two materials. Here, we study the absorption of these hybrids by comparing experimental results with simulations using the discrete dipole approximation method (DDA) employing dielectric functions of the bare components as input…

Optics and PhotonicsMaterials sciencemetalJanus particlesMetal NanoparticlesPhysics::OpticsGeneral Physics and AstronomyNanoparticleNanotechnologyJanus particlesDielectricSulfidesDiscrete dipole approximationAbsorptionotpical absorption; metal; semiconductor; nanoparticleshybrid nanoparticlesplasmonCondensed Matter::Materials ScienceMicroscopy Electron TransmissionQuantum DotsCadmium CompoundsElectrochemistryNanotechnologyComputer SimulationGeneral Materials ScienceAbsorption (electromagnetic radiation)PlasmonexcitonGeneral Engineeringotpical absorptionsemiconductorCondensed Matter::Mesoscopic Systems and Quantum Hall EffectSemiconductorsMetalsQuantum dotChemical physicsHybrid systemnanoparticlesGoldDDAACS Nano
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Test of a separable approximation to a local soft-core potential in the three-body system

1975

Three-nucleon observables below the break-up threshold are calculated employing the pole approximation to the soft-core Malfliet-Tjon potentials. The results are compared in detail to those obtained with the local potentials and to those calculated with the usual Yamaguchi interactions.

PhysicsBody systemNuclear and High Energy PhysicsPole approximationNuclear TheoryMathematical analysisObservable/dk/atira/pure/sustainabledevelopmentgoals/clean_water_and_sanitationSeparable spaceSoft coreNuclear cross sectionNuclear drip lineAtomic physicsSDG 6 - Clean Water and SanitationZeitschrift f�r Physik A Atoms and Nuclei
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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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The Random-Phase Approximation

2007

In this chapter we extend the TDA particle-hole formalism of Chap. 9 to include correlations in the nuclear ground state. This sophisticated particle-hole formalism is called the random-phase approximation (RPA). In this description the simple Hartree-Fock particle-hole vacuum is replaced by a correlated ground state involving many-particle-many-hole excitations of the simple particle-hole vacuum. The resulting configuration mixing in excited states is more involved in the RPA than it is in the TDA. The ground-state correlations induce both particle-hole and hole-particle components in the RPA wave function.

PhysicsGeneral Relativity and Quantum CosmologyMuffin-tin approximationAstrophysics::High Energy Astrophysical PhenomenaQuantum mechanicsExcited stateNuclear TheoryBorn–Huang approximationDiscrete dipole approximation codesSpouge's approximationGround stateRandom phase approximationEikonal approximation
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Plasma Electron Kinetics and Distribution Functions in Laser Fields

2010

A concise review of the properties of electron distribution functions in a fully ionized plasma in the presence of a high-frequency laser field is presented. In detail is discussed the physical origin of most of the reported results in the case of strong fields. The presence of a laser field, through the inverse bremsstrahlung absorption, alters dynamically the roles of and the interplay between electron-ion and electron-electron collisions shaping the distribution function. Special attention is paid to the role of e-e collisions in the process of laser-plasma interaction.

PhysicsLaser-plasma interactionField (physics)Anisotropic heatingBremsstrahlungPlasmaDiscrete dipole approximationLaserlaw.inventionHarmonic generation in plasmaDistribution functionlawIonizationAnisotropic bi-MaxwellianElectromagnetic electron waveEDFAtomic physics
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