Search results for "energy density functionals"

showing 9 items of 9 documents

Binding energies and pairing gaps in semi-magic nuclei obtained using new regularized higher-order EDF generators

2016

We present results of the Hartree-Fock-Bogolyubov calculations performed using nuclear energy density functionals based on regularized functional generators at next-to-leading and next-to-next-to-leading order. We discuss properties of binding energies and pairing gaps determined in semi-magic spherical nuclei. The results are compared with benchmark calculations performed for the functional generator SLyMR0 and functional UNEDF0.

Discrete mathematicsPhysics[PHYS.NUCL] Physics [physics]/Nuclear Theory [nucl-th]ta114regularized functional generatorsNuclear Theory[PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th]tiheysfunktionaaliteoriaBinding energyNuclear TheoryMagic (programming)FOS: Physical sciences114 Physical sciences7. Clean energyMolecular physicsNuclear Theory (nucl-th)nuclear binding energiesnuclear energy density functionalspairing gapsPairingEnergy densityydinfysiikkaNuclear ExperimentNuclear theory

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Mean-Field Calculation Based on Proton-Neutron Mixed Energy Density Functionals

2014

We have performed calculations based on the Skyrme energy density functional (EDF) that includes arbitrary mixing between protons and neutrons. In this framework, single-particle states are generalized as mixtures of proton and neutron components. The model assumes that the Skyrme EDF is invariant under the rotation in isospin space and the Coulomb force is the only source of the isospin symmetry breaking. To control the isospin of the system, we employ the isocranking method, which is analogous to the standard cranking approach used for describing high-spin states. Here, we present results of the isocranking calculations performed for the isobaric analog states in $A = 40$ and $A = 54$ nuc…

Nuclear Theory (nucl-th)Nuclear Theoryproton-neutron mixingisobaric analog statesNuclear TheoryFOS: Physical sciencesNuclear Experimentenergy density functionals

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Structure of transactinide nuclei with relativistic energy density functionals

2013

A microscopic theoretical framework based on relativistic energy density functionals (REDFs) is applied to studies of shape evolution, excitation spectra, and decay properties of transactinide nuclei. Axially symmetric and triaxial relativistic Hartree-Bogoliubov (RHB) calculations, based on the functional DD-PC1 and with a separable pairing interaction, are performed for the even-even isotopic chains between Fm and Fl. The occurrence of a deformed shell gap at neutron number $N=162$ and its role on the stability of nuclei in the region around $Z=108$ is investigated. A quadrupole collective Hamiltonian, with parameters determined by self-consistent constrained triaxial RHB calculations, is…

Nuclear and High Energy PhysicsNuclear TheoryTransactinide element01 natural sciencesenergy density functionalsSeparable spacesymbols.namesake0103 physical sciences010306 general physicsPhysicsta114010308 nuclear & particles physicsObservablecollective modelstransactinide nuclei ; energy density functionals ; collective modelsNATURAL SCIENCES. Physics.PRIRODNE ZNANOSTI. Fizika.transactinide nucleiTheoretical nuclear physicsPairingNeutron numberQuadrupolesymbolsAtomic physicsHamiltonian (quantum mechanics)Axial symmetry

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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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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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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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Mean-Field Calculation Based on Proton-Neutron Mixed Energy Density Functionals

2015

Physicsta114Proton010308 nuclear & particles physicsNuclear TheoryInvariant (physics)01 natural sciencesenergy density functionalsCoulomb's lawNuclear physicssymbols.namesakeMean field theoryproton-neutron mixingisobaric analog statesQuantum electrodynamicsIsospin0103 physical sciencessymbolsIsobaric processNeutronSymmetry breakingNuclear Experiment010306 general physicsProceedings of the Conference on Advances in Radioactive Isotope Science (ARIS2014)

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Higher-order energy density functionals in nuclear self-consistent theory

2011

In this thesis consisting of two publications and an overview part, a study of two aspects of energy density functionals has been performed. Firstly, we have linked the next-to-next-to-next-to-leading order nuclear energy density functional to a zero-range pseudopotential that includes all possible terms up to sixth order in derivatives. Within the Hartree-Fock approximation, the quasi-local nuclear Energy Density Functional (EDF) has been calculated as the average energy obtained from the pseudopotential. The direct reference of the EDF to the pseudopotential acts as a constraint that allows for expressing the isovector coupling constants functional in terms of the isoscalar ones, or vice …

pseudopotentialsydinenergianuclear energy density functionalscontinuity equationbioceramics

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