Search results for "Many-Body"

showing 10 items of 87 documents

Isobar width effects in the coupling of nucleon to isobar channels

1986

The investigation of the effects of isobar coupling to two-nucleon channels has been extended to include additional physical features. A new code discretizes the mass distribution of the isobar widths and treats each mass as a separate channel. This allows the treatment of width in the presence of coupling by transition potentials, in addition to the previously permitted boundary coupling. It also produces the S-italic-matrix components required to describe the many-body final-state distributions. When indicated by the one-pion-exchange coupling strength new isobar channels are included. The new results for nucleon-nucleon scattering fit the data better, starting from more realistic models.…

PhysicsCouplingMass distributionScatteringMomentum transferNuclear TheoryFísicaElementary particleNuclear physicsMany-body problemIsobarAtomic physicsNucleonNuclear Experiment
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Linear response theory: many-body formulation

2013

PhysicsFluctuation-dissipation theoremClassical mechanicsThermal quantum field theoryQuantum mechanicsKubo formulaMany-body theoryQuantum gravityGauge theorySecond quantizationQuantum
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The melting behaviour of small silicon clusters

1994

Abstract We report an analysis of the melting behaviour of small silicon clusters interacting via a nonlinear interatomic potential with four-body terms. The analysis shows, by means of Monte Carlo and molecular dynamics simulations, that the small silicon clusters undergo, in a vacuum, structural changes from a solid rigid state to a liquid-like state. The melting temperature exhibits a strong variation with cluster size.

PhysicsFusionSiliconMonte Carlo methodGeneral Physics and Astronomychemistry.chemical_elementInteratomic potentialBond lengthMany-body problemNonlinear systemMolecular dynamicschemistryChemical physicsPhysical chemistryPhysics Letters A
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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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Self‐consistent intermediate Hamiltonians : A coupled cluster type formulation of the singles and doubles configuration interaction matrix dressing

1995

This paper presents a new self‐consistent dressing of a singles and doubles configuration interaction matrix which insures size‐consistency, separability into closed‐shell subsystems if localized molecular orbitals (MOs) are used, and which includes all fourth order corrections. This method yields, among several schemes, a reformulation of the coupled cluster method, including fully the cluster operators of single and double excitations, and partially those of the triples (Bartlett’s algorithm named CCSDT‐1a). Further improvement can be easily included by adding exclusion principle violating corrections. Since it leads to a matrix diagonalization, the method behaves correctly in case of nea…

PhysicsHamiltoniansDiagonalizable matrixGeneral Physics and AstronomyLocalized molecular orbitalsConfiguration interactionMany−Body ProblemUNESCO::FÍSICA::Química físicaMany-body problemSelf−Consistent FieldConfiguration Interactionsymbols.namesakeMatrix (mathematics)Pauli exclusion principleCoupled clusterHamiltonians ; Self−Consistent Field ; Many−Body Problem ; Perturbation Theory ; Configuration Interaction ; AlgorithmsQuantum mechanicssymbolsPerturbation TheoryPerturbation theory (quantum mechanics)Physical and Theoretical Chemistry:FÍSICA::Química física [UNESCO]Algorithms
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The generalized Kadanoff-Baym ansatz with initial correlations

2018

Within the non-equilibrium Green's function (NEGF) formalism, the Generalized Kadanoff-Baym Ansatz (GKBA) has stood out as a computationally cheap method to investigate the dynamics of interacting quantum systems driven out of equilibrium. Current implementations of the NEGF--GKBA, however, suffer from a drawback: real-time simulations require {\em noncorrelated} states as initial states. Consequently, initial correlations must be built up through an adiabatic switching of the interaction before turning on any external field, a procedure that can be numerically highly expensive. In this work, we extend the NEGF--GKBA to allow for {\em correlated} states as initial states. Our scheme makes i…

PhysicsKadanoff-Baym ansatzStrongly Correlated Electrons (cond-mat.str-el)ta114many-body theoryFOS: Physical sciencesNon-equilibrium thermodynamics02 engineering and technologyGreen's functionCondensed Matter::Mesoscopic Systems and Quantum Hall Effect021001 nanoscience & nanotechnology01 natural sciencesSettore FIS/03 - Fisica della MateriaCondensed Matter - Strongly Correlated ElectronsImproved performanceFormalism (philosophy of mathematics)0103 physical sciencesExternal fieldStatistical physicskvanttifysiikka010306 general physics0210 nano-technologyAdiabatic processQuantumAnsatzPhysical Review B
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Coulomb effects in three-body reactions with two charged particles

1978

We present the details of a novel approach to the treatment of Coulomb effects in atomic and nuclear reactions of the three-body type in which two of the particles are charged. Based on three-body integral equations the formalism allows the practical calculation of elastic, inelastic, rearrangement, and breakup processes with full inclusion of the Coulomb repulsion or attraction in a mathematically correct way. No restrictions need to be made concerning the form of the short-range interactions between the three pairs. A particular virtue of our method lies in the fact that it corroborates, and gives precise meaning to, the intuitively anticipated conception of how to describe such reactions.

PhysicsMany-body problemElastic scatteringNuclear and High Energy PhysicsFaddeev equationsClassical mechanicsQuantum electrodynamicsElectric fieldCoulombInelastic scatteringIntegral equationCharged particlePhysical Review C
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Jastrow-Correlated Configuration-Interaction Description of Light Nuclei

1999

This work describes recent progress of the UMIST-VALENCIA collaboration on the ab initio study of ground states of light nuclei using realistic forces. The method presented here constructs trial variational wave functions by superimposing a central Jastrow correlation on a state-dependent translationally invariant linearly correlated state, with very promising results.

PhysicsMany-body problemLight nucleusClassical mechanicsQuantum mechanicsAb initioInvariant (physics)Configuration interactionWave functionTwo-body problemCalculation methods
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New information on 12C states from the decays of 12N and 12B

2003

Abstract The properties of states in 12 C above the 3α-threshold are of high current interest for nuclear astrophysics and for the nuclear many-body problem in general. We have initiated a series of experiments aimed at elucidating this region by using the β-decays of 12 N and 12 B. By applying the ISOL method for producing these radioactive isotopes, in combination with modern segmented charged particle detectors, our approach has significant advantages over previous studies of this region.

PhysicsMany-body problemNuclear physicsNuclear and High Energy PhysicsParticle physicsIsotopeNuclear astrophysicsNuclear structureCarbon-12Nuclear ExperimentIsotopes of berylliumRadioactive decayParticle detectorNuclear Physics A
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Photon and Pion Nuclear Absorption Mechanisms

1992

Using a microscopical many body approach to pion and photonuclear reactions we study the mechanisms of pion and photon absorptions with emphasis on the number of nucleons involved in the genuine absorption process.

PhysicsMany-body problemNuclear physicsPhotonPionNuclear TheoryNuclear ExperimentNucleonAbsorption (electromagnetic radiation)Many body
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