Search results for "Energy density functional"

showing 10 items of 30 documents

Landau parameters for energy density functionals generated by local finite-range pseudopotentials

2017

In Landau theory of Fermi liquids, the particle-hole interaction near the Fermi energy in different spin-isospin channels is probed in terms of an expansion over the Legendre polynomials. This provides a useful and efficient way to constrain properties of nuclear energy density functionals in symmetric nuclear matter and finite nuclei. In this study, we present general expressions for Landau parameters corresponding to a two-body central local regularized pseudopotential. We also show results obtained for two recently adjusted NLO and N$^2$LO parametrizations. Such pseudopotentials will be used to determine mean-field and beyond-mean-field properties of paired nuclei across the entire nucle…

Nuclear and High Energy PhysicsNuclear Theory[PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th]HARTREE-FOCK CALCULATIONSNuclear Theoryregularized pseudopotentialsFOS: Physical sciencesFinite range114 Physical sciences7. Clean energy01 natural sciencesenergy density functionalsNuclear Theory (nucl-th)PseudopotentialLandau parametersQuantum mechanics0103 physical sciencesNuclear Experiment010306 general physicsLegendre polynomialsNUCLEAR-MATTERPhysics010308 nuclear & particles physicsFermi energyNuclear matterLandau theoryEnergy densityFermi Gamma-ray Space TelescopeJournal of Physics G: Nuclear and Particle Physics
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Nonlocal energy density functionals for pairing and beyond-mean-field calculations

2017

We propose to use two-body regularized finite-range pseudopotential to generate nuclear energy density functional (EDF) in both particle-hole and particle-particle channels, which makes it free from self-interaction and self-pairing, and also free from singularities when used beyond mean field. We derive a sequence of pseudopotentials regularized up to next-to-leading order (NLO) and next-to-next-to-leading order (N2LO), which fairly well describe infinite-nuclear-matter properties and finite open-shell paired and/or deformed nuclei. Since pure two-body pseudopotentials cannot generate sufficiently large effective mass, the obtained solutions constitute a preliminary step towards future imp…

Nuclear and High Energy PhysicsNuclear Theory[PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th]regularized pseudopotentialsFOS: Physical sciences114 Physical sciences01 natural sciences7. Clean energyenergy density functionalsPseudopotentialNuclear Theory (nucl-th)Effective mass (solid-state physics)0103 physical sciencesEQUATIONStatistical physics010306 general physicsPhysicsNUCLEIEnergy density functional010308 nuclear & particles physicsMean field theoryPairingEnergy densitynuclear pairingGravitational singularityFORCES
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Model nuclear energy density functionals derived from ab initio calculations

2020

We present the first application of a new approach, proposed in [Journal of Physics G: Nuclear and Particle Physics, 43, 04LT01 (2016)] to derive coupling constants of the Skyrme energy density functional (EDF) from ab initio Hamiltonian. By perturbing the ab initio Hamiltonian with several functional generators defining the Skyrme EDF, we create a set of metadata that is then used to constrain the coupling constants of the functional. We use statistical analysis to obtain such an ab initio-equivalent Skyrme EDF. We find that the resulting functional describes properties of atomic nuclei and infinite nuclear matter quite poorly. This may point out to the necessity of building up the ab init…

Nuclear and High Energy PhysicsNuclear Theoryab initio methodstilastomenetelmätNuclear TheoryAb initioFOS: Physical sciences114 Physical sciences01 natural sciences7. Clean energyNuclear Theory (nucl-th)symbols.namesakeAb initio quantum chemistry methodsQuantum mechanics0103 physical sciences010306 general physicsGreen functionsPhysicsCoupling constantEnergy density functionalnuclear density functional theory010308 nuclear & particles physicstiheysfunktionaaliteoriaNuclear matterAtomic nucleusEnergy densitysymbolsstatistical methodsHamiltonian (quantum mechanics)ydinfysiikka
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Isospin-symmetry breaking in masses of ≃ Nuclei

2018

Effects of the isospin-symmetry breaking (ISB) beyond mean-field Coulomb terms are systematically studied in nuclear masses near the N=Z line. The Coulomb exchange contributions are calculated exactly. We use extended Skyrme energy density functionals (EDFs) with proton–neutron-mixed densities, to which we add new terms breaking the isospin symmetry. Two parameters associated with the new terms are determined by fitting mirror and triplet displacement energies (MDEs and TDEs) of isospin multiplets. The new EDFs reproduce MDEs for the T=12 doublets and T=1 triplets, and TDEs for the T=1 triplets. Relative strengths of the obtained isospin-symmetry-breaking terms are not consistent with the d…

Nuclear and High Energy PhysicsParticle physicsprotonitNuclear TheoryTriplet displacement energy (TDE)01 natural sciencesComputer Science::Digital LibrariesDisplacement (vector)Energy density functional (EDF)Proton–neutron mixingproton–neutron mixingnuclear physicstiheysmirror displacement energy (MDE)0103 physical sciencesCoulombSymmetry breaking010306 general physicsnuclear density functional theory (DFT)density functional theoryLine (formation)Physicsdensityenergiata114protons010308 nuclear & particles physicsScatteringtiheysfunktionaaliteorianeutronsneutronitenergy density functional (EDF)lcsh:QC1-999Symmetry (physics)Isospin symmetry breaking (ISB)Isospintriplet displacement energy (TDE)isospin symmetry breaking (ISB)ydinfysiikkaMirror displacement energy (MDE)Parametrizationlcsh:PhysicsenergyPhysics Letters
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Properties of nuclei in the nobelium region studied within the covariant, Skyrme, and Gogny energy density functionals

2015

We calculate properties of the ground and excited states of nuclei in the nobelium region for proton and neutron numbers of 92 <= Z <= 104 and 144 <= N <= 156, respectively. We use three different energy-density-functional (EDF) approaches, based on covariant, Skyrme, and Gogny functionals, each within two different parameter sets. A comparative analysis of the results obtained for odd-even mass staggerings, quasiparticle spectra, and moments of inertia allows us to identify single-particle and shell effects that are characteristic to these different models and to illustrate possible systematic uncertainties related to using the EDF modelling

Nuclear and High Energy Physics[PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th]ProtonNuclear TheoryNuclear Theorychemistry.chemical_elementFOS: Physical sciences7. Clean energySpectral lineMoments of inertiaNuclear physicsNuclear Theory (nucl-th)NeutronCovariant transformationHeavy and superheavy nucleiPhysicsta114Odd–even mass staggeringMoment of inertiachemistryExcited stateQuasiparticleNobeliumQuasiparticle excitationsNuclear energy density functionalsNuclear masses
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Nonlocal energy density functionals for low-energy nuclear structure

2014

We introduce a finite-range pseudopotential built as an expansion in derivatives up to next-to-next-to-next-to-leading order (N$^3$LO) and we calculate the corresponding nonlocal energy density functional (EDF). The coupling constants of the nonlocal EDF, for both finite nuclei and infinite nuclear matter, are expressed through the parameters of the pseudopotential. All central, spin-orbit, and tensor terms of the pseudopotential are derived both in the spherical-tensor and Cartesian representation. At next-to-leading order (NLO), we also derive relations between the nonlocal EDF expressed in the spherical-tensor and Cartesian formalism. Finally, a simplified version of the finite-range pse…

PhysicsCoupling constantNuclear and High Energy PhysicsEnergy density functionalNuclear Theory[PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th]Nuclear structureFOS: Physical sciencesNuclear matterlaw.inventionPseudopotentialNuclear Theory (nucl-th)Low energylawEnergy densityCartesian coordinate systemComputer Science::Operating SystemsMathematical physics
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Strong-interaction Isospin-symmetry Breaking Within the Density Functional Theory

2015

The conventional Skyrme interaction is generalized by adding zero-range charge-symmetry-breaking and charge-independence-breaking terms, and the corresponding energy density functional is derived. It is shown that the extended model accounts for experimental values of mirror and triplet displacement energies (MDEs and TDEs) in sd-shell isospin triplets with, on average, about 100~keV precision using only two additional adjustable coupling constants. Moreover, the model is able to reproduce, for the first time, the A=4n versus A=4n+2 staggering of the TDEs.

PhysicsCoupling constantta114Nuclear TheoryEnergy density functionalStrong interactiontiheysfunktionaaliteoriaFOS: Physical sciencesGeneral Physics and AstronomySkyrme interactionDisplacement (vector)Nuclear Theory (nucl-th)isospin symmetryExtended modelIsospinQuantum mechanicsDensity functional theoryisospin symmetry breakingSymmetry breakingdensity functional theory
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Spectroscopic Properties of Nuclear Skyrme Energy Density Functionals

2014

We address the question of how to improve the agreement between theoretical nuclear single-particle energies (SPEs) and experiment. Empirically, in doubly magic nuclei, the SPEs can be deduced from spectroscopic properties of odd nuclei that have one more, or one less neutron or proton. Theoretically, bare SPEs, before being confronted with experiment, must be corrected for the effects of the particle-vibration-coupling (PVC). In the present work, we determine the PVC corrections in a fully self-consistent way. Then, we adjust the SPEs, with PVC corrections included, to empirical data. In this way, the agreement with experiment, on average, improves; nevertheless, large discrepancies still …

PhysicsEmpirical dataNuclear Theoryta114FOS: Physical sciencesGeneral Physics and Astronomyenergy density functionals3. Good healthNuclear Theory (nucl-th)Nuclear physicsnuclear skyrmeEnergy densityNeutronspectroscopic propertiesNuclear theoryPhysical review letters
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Polarization corrections to single-particle energies studied within the energy-density-functional and quasiparticle random-phase approximation approa…

2014

Background: Models based on using perturbative polarization corrections and mean-field blocking approximation give conflicting results for masses of odd nuclei. Purpose: We systematically investigate the polarization and mean-field models, implemented within self-consistent approaches that use identical interactions and model spaces, to find reasons for the conflicts between them. Methods: For density-dependent interactions and with pairing correlations included, we derive and study links between the mean-field and polarization results obtained for energies of odd nuclei. We also identify and discuss differences between the polarization-correction and full particle-vibration-coupling (PVC) …

PhysicsNuclear and High Energy PhysicsEnergy density functionalta114Quantum mechanicsPairingQuasiparticleParity (physics)Circular symmetryPolarization (waves)Random phase approximationNuclear theoryPhysical Review C
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First applications of Fayans functional to deformed nuclei

2014

First calculations for deformed nuclei with the Fayans functional are carried out for the uranium and lead isotopic chains. The ground state deformations and deformation energies are compared to Skyrme-Hartree-Fock-Bogolyubov results of HFB-17 and HFB-27 functionals. For the uranium isotopic chain, the Fayans functional predictions are rather similar properties compared to HFB-17 and HFB-27. However, there is a disagreement for the lead isotopic chain. Both of the Skyrme HFB functionals predict rather strong deformations for the light Pb isotopes which does not agree with the experimental data on charge radii and magnetic moments of the odd Pb isotopes. On the other hand, the Fayans functio…

PhysicsNuclear and High Energy PhysicsIsotopeMagnetic momentEnergy density functionalNuclear TheoryNuclear Theorychemistry.chemical_elementFOS: Physical sciencesCharge (physics)Deformation (meteorology)Uranium3. Good healthNuclear Theory (nucl-th)chemistryAtomic physicsGround stateNuclear ExperimentNuclear theory
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