Nuclear Physics, Section A, ISSN 0375-9474, 08/2014, Volume 928, pp. 234 - 246

Using a partonic transport model based on the Nambuâ€“Jona-Lasinio model, we study the effect of scalar and vector mean fields on the elliptic flows of quarks...

Mean-field effects | Relativistic heavy ion collisions | Elliptic flow | Transport model | KAON PRODUCTION | DYNAMICAL MODEL | CHIRAL PHASE-TRANSITION | PHYSICS, NUCLEAR | RESTORATION | HOT | ANALOGY | LOW-MASS DILEPTONS | DENSITY | ENHANCEMENT | NUCLEAR COLLISIONS | Analysis | Collisions (Nuclear physics)

Mean-field effects | Relativistic heavy ion collisions | Elliptic flow | Transport model | KAON PRODUCTION | DYNAMICAL MODEL | CHIRAL PHASE-TRANSITION | PHYSICS, NUCLEAR | RESTORATION | HOT | ANALOGY | LOW-MASS DILEPTONS | DENSITY | ENHANCEMENT | NUCLEAR COLLISIONS | Analysis | Collisions (Nuclear physics)

Journal Article

Physical Review C - Nuclear Physics, ISSN 0556-2813, 04/2009, Volume 79, Issue 4

Based on a relativistic mean-field theory with an effective point coupling between the nucleons, three-dimensional angular momentum projection is implemented...

CANONICAL FORM | SHELL-MODEL | SYMMETRY | HARTREE-BOGOLIUBOV THEORY | GENERATOR-COORDINATE METHOD | PHYSICS, NUCLEAR | SELF-CONSISTENT | MATRIX-ELEMENTS | PARTICLE NUMBER | OSCILLATOR WAVE FUNCTIONS | NUCLEAR-STRUCTURE | Physics - Nuclear Theory | CORRELATIONS | MONOPOLES | COUPLING | INTERACTIONS | THREE-DIMENSIONAL CALCULATIONS | MASS DIFFERENCE | NUCLEONS | RELATIVISTIC RANGE | NUCLEAR PHYSICS AND RADIATION PHYSICS | ANGULAR MOMENTUM | MAGNESIUM 30 | MEAN-FIELD THEORY | MAGNESIUM 32 | HAMILTONIANS | MAGNESIUM 24 | BCS THEORY

CANONICAL FORM | SHELL-MODEL | SYMMETRY | HARTREE-BOGOLIUBOV THEORY | GENERATOR-COORDINATE METHOD | PHYSICS, NUCLEAR | SELF-CONSISTENT | MATRIX-ELEMENTS | PARTICLE NUMBER | OSCILLATOR WAVE FUNCTIONS | NUCLEAR-STRUCTURE | Physics - Nuclear Theory | CORRELATIONS | MONOPOLES | COUPLING | INTERACTIONS | THREE-DIMENSIONAL CALCULATIONS | MASS DIFFERENCE | NUCLEONS | RELATIVISTIC RANGE | NUCLEAR PHYSICS AND RADIATION PHYSICS | ANGULAR MOMENTUM | MAGNESIUM 30 | MEAN-FIELD THEORY | MAGNESIUM 32 | HAMILTONIANS | MAGNESIUM 24 | BCS THEORY

Journal Article

Physical Review C - Nuclear Physics, ISSN 0556-2813, 2005, Volume 71, Issue 2

We adjust a new improved relativistic mean-field effective interaction with explicit density dependence of the meson-nucleon couplings. The effective...

MATTER | PHYSICS, NUCLEAR | GIANT-DIPOLE RESONANCE | EXCITED STATES | COUPLING | ENERGY-LEVEL TRANSITIONS | RELATIVISTIC RANGE | HARTREE-FOCK METHOD | NUCLEAR MATTER | TRANSACTINIDE ELEMENTS | NUCLEAR PHYSICS AND RADIATION PHYSICS | MEAN-FIELD THEORY | MESON-NUCLEON INTERACTIONS | NUCLEAR FORCES | QUANTUM FIELD THEORY | GROUND STATES | RANDOM PHASE APPROXIMATION

MATTER | PHYSICS, NUCLEAR | GIANT-DIPOLE RESONANCE | EXCITED STATES | COUPLING | ENERGY-LEVEL TRANSITIONS | RELATIVISTIC RANGE | HARTREE-FOCK METHOD | NUCLEAR MATTER | TRANSACTINIDE ELEMENTS | NUCLEAR PHYSICS AND RADIATION PHYSICS | MEAN-FIELD THEORY | MESON-NUCLEON INTERACTIONS | NUCLEAR FORCES | QUANTUM FIELD THEORY | GROUND STATES | RANDOM PHASE APPROXIMATION

Journal Article

Monthly Notices of the Royal Astronomical Society, ISSN 0035-8711, 02/2015, Volume 447, Issue 1, pp. 49 - 71

We present a mean-field model that emulates the magnetic dynamo operating in magnetized accretion discs. We have implemented this model in the general...

Relativistic processes | Accretion | Accretion discs | Black hole physics | Galaxies: jets | Methods: numerical | MAGNETOHYDRODYNAMIC SIMULATIONS | DOMINATED ACCRETION | galaxies: jets | methods: numerical | accretion, accretion discs | relativistic processes | COMPARABLE RADIATION | GODUNOV METHOD | black hole physics | DISKS | ASTRONOMY & ASTROPHYSICS | TRANSFER EQUATION | GAS-PRESSURE | M1 CLOSURE | NUMERICAL SIMULATIONS | THICK ACCRETION

Relativistic processes | Accretion | Accretion discs | Black hole physics | Galaxies: jets | Methods: numerical | MAGNETOHYDRODYNAMIC SIMULATIONS | DOMINATED ACCRETION | galaxies: jets | methods: numerical | accretion, accretion discs | relativistic processes | COMPARABLE RADIATION | GODUNOV METHOD | black hole physics | DISKS | ASTRONOMY & ASTROPHYSICS | TRANSFER EQUATION | GAS-PRESSURE | M1 CLOSURE | NUMERICAL SIMULATIONS | THICK ACCRETION

Journal Article

Physical Review C - Nuclear Physics, ISSN 0556-2813, 03/2009, Volume 79, Issue 3

The framework of relativistic energy density functionals is extended to include correlations related to the restoration of broken symmetries and fluctuations...

GENERATOR-COORDINATE-METHOD | NUMERICAL-SOLUTION | SHAPE | MOTION | HARTREE-BOGOLIUBOV THEORY | EVEN NUCLEI | POTENTIAL-ENERGY SURFACES | FOCK EQUATIONS | PHYSICS, NUCLEAR | NUCLEAR-STRUCTURE | HEAVY-NUCLEI | POTENTIAL ENERGY | APPROXIMATIONS | DEGREES OF FREEDOM | EVEN-EVEN NUCLEI | CORRELATIONS | COLLECTIVE EXCITATIONS | ENERGY DENSITY | GADOLINIUM ISOTOPES | RELATIVISTIC RANGE | NUCLEAR PHYSICS AND RADIATION PHYSICS | EIGENVALUES | MATHEMATICAL SOLUTIONS | PROBABILITY | MEAN-FIELD THEORY | SYMMETRY BREAKING | FLUCTUATIONS | QUADRUPOLES | MANY-DIMENSIONAL CALCULATIONS | HAMILTONIANS | SPECTRA | SURFACES

GENERATOR-COORDINATE-METHOD | NUMERICAL-SOLUTION | SHAPE | MOTION | HARTREE-BOGOLIUBOV THEORY | EVEN NUCLEI | POTENTIAL-ENERGY SURFACES | FOCK EQUATIONS | PHYSICS, NUCLEAR | NUCLEAR-STRUCTURE | HEAVY-NUCLEI | POTENTIAL ENERGY | APPROXIMATIONS | DEGREES OF FREEDOM | EVEN-EVEN NUCLEI | CORRELATIONS | COLLECTIVE EXCITATIONS | ENERGY DENSITY | GADOLINIUM ISOTOPES | RELATIVISTIC RANGE | NUCLEAR PHYSICS AND RADIATION PHYSICS | EIGENVALUES | MATHEMATICAL SOLUTIONS | PROBABILITY | MEAN-FIELD THEORY | SYMMETRY BREAKING | FLUCTUATIONS | QUADRUPOLES | MANY-DIMENSIONAL CALCULATIONS | HAMILTONIANS | SPECTRA | SURFACES

Journal Article

Physical Review C - Nuclear Physics, ISSN 0556-2813, 07/2008, Volume 78, Issue 1

In the present article we investigate the onset of the pasta phase with different parametrizations of the nonlinear Walecka model. At zero temperature two...

EQUATION-OF-STATE | ASYMMETRIC NUCLEAR-MATTER | PHYSICS, NUCLEAR | NEUTRON-STAR CRUST | HOT | SUPERNOVAE | DENSE MATTER | APPROXIMATIONS | THOMAS-FERMI MODEL | SIMULATION | PROTONS | ISOSPIN | PROTON TEMPERATURE | RELATIVISTIC RANGE | SURFACE TENSION | NUCLEAR PHYSICS AND RADIATION PHYSICS | ASYMMETRY | NONLINEAR PROBLEMS | MEAN-FIELD THEORY | TEMPERATURE ZERO K | EQUILIBRIUM | WALECKA MODEL

EQUATION-OF-STATE | ASYMMETRIC NUCLEAR-MATTER | PHYSICS, NUCLEAR | NEUTRON-STAR CRUST | HOT | SUPERNOVAE | DENSE MATTER | APPROXIMATIONS | THOMAS-FERMI MODEL | SIMULATION | PROTONS | ISOSPIN | PROTON TEMPERATURE | RELATIVISTIC RANGE | SURFACE TENSION | NUCLEAR PHYSICS AND RADIATION PHYSICS | ASYMMETRY | NONLINEAR PROBLEMS | MEAN-FIELD THEORY | TEMPERATURE ZERO K | EQUILIBRIUM | WALECKA MODEL

Journal Article

Nuclear Physics, Section A, ISSN 0375-9474, 10/2019, Volume 990, pp. 118 - 136

Nucleon-nucleon short-range correlations (SRCs) result in the presence of high-momentum tail (HMT) above the Fermi surface in nucleon momentum distribution. In...

Relativistic mean field theory | High-momentum tail | Neutron stars | MATTER | EQUATION-OF-STATE | MOMENTUM | SYSTEMS | PHYSICS, NUCLEAR

Relativistic mean field theory | High-momentum tail | Neutron stars | MATTER | EQUATION-OF-STATE | MOMENTUM | SYSTEMS | PHYSICS, NUCLEAR

Journal Article

AIP Conference Proceedings, ISSN 0094-243X, 10/2018, Volume 2023, Issue 1

Nuclear bubble is one of the interesting phenomena in nuclei. Nuclear bubble is characterized by existence of depletion at the center of nuclei [1, 2]. In this...

nuclear bubble | relativistic mean field model | Sn isotope | Bubbles | Depletion | Relativism | Nucleons | Tin isotopes | Isotopes | Nuclei | Relativistic effects

nuclear bubble | relativistic mean field model | Sn isotope | Bubbles | Depletion | Relativism | Nucleons | Tin isotopes | Isotopes | Nuclei | Relativistic effects

Journal Article

Progress in Particle and Nuclear Physics, ISSN 0146-6410, 1996, Volume 37, pp. 193 - 263

relativistic theory of pairing | relativistic Coulomb excitations | neutron halo | ground state properties of finite nuclei | pairing with realistic forces of finite range | isotopic shifts | nuclear radii | time-dependent relativistic mean field theory | polarization currents | exotic nuclei | relativistic cranking theory | spin-orbit-term | identical bands | nuclear magnetism | superdeformed states | giant resonances, large amplitude collective motion | effective Lagrangians | fission barriers | nuclear deformations | Relativistic mean field theory | neutron drip line | Nuclear magnetism | Neutron halo | Nuclear deformations | Isotopic shifts | Polarization currents | Fission barriers | Ground state properties of finite nuclei | Exotic nuclei | Effective Lagrangians | Nuclear radii | Spin-orbit-term

Journal Article

Nuclear Physics, Section A, ISSN 0375-9474, 02/2020, Volume 994, p. 121657

In the present work, the influence of the nuclear matter density on the DF potential and on the Coulomb barrier parameters is studied systematically for...

Double folding potential | Relativistic mean-field density | Heavy-ion fusion

Double folding potential | Relativistic mean-field density | Heavy-ion fusion

Journal Article

AIP Conference Proceedings, ISSN 0094-243X, 07/2019, Volume 2130, Issue 1

We report the recent progress in relativistic mean-field (RMF) and beyond approaches for the low-energy structure of deformed hypernuclei. We show that the Î›...

Impact prediction | Neutron stars | Deformation | Parameter uncertainty | Angular momentum | Relativism | Hypernuclei | Parameter sensitivity | Quadrupoles | Relativistic effects | Physics - Nuclear Theory

Impact prediction | Neutron stars | Deformation | Parameter uncertainty | Angular momentum | Relativism | Hypernuclei | Parameter sensitivity | Quadrupoles | Relativistic effects | Physics - Nuclear Theory

Journal Article

Science China Physics, Mechanics & Astronomy, ISSN 1674-7348, 4/2019, Volume 62, Issue 4, pp. 1 - 8

We develop both relativistic mean field and beyond approaches for hypernuclei with possible quadrupole-octupole deformation or pear-like shapes based on...

hypernucleus | Classical and Continuum Physics | relativistic mean field | cluster structure | Physics, general | Physics | Astronomy, Observations and Techniques | octupole deformation | NUCLEI | HARTREE-BOGOLIUBOV THEORY | PHYSICS, MULTIDISCIPLINARY | Electrical engineering | Density functionals | Resveratrol | Physics - Nuclear Theory

hypernucleus | Classical and Continuum Physics | relativistic mean field | cluster structure | Physics, general | Physics | Astronomy, Observations and Techniques | octupole deformation | NUCLEI | HARTREE-BOGOLIUBOV THEORY | PHYSICS, MULTIDISCIPLINARY | Electrical engineering | Density functionals | Resveratrol | Physics - Nuclear Theory

Journal Article

Nuclear Physics, Section A, ISSN 0375-9474, 02/2020, Volume 994, p. 121667

A detailed study of the electromagnetic responses for quasielastic reactions from nuclear matter is presented within the framework of a relativistic model...

Scaling | Electron scattering | Electromagnetic responses | Relativistic mean field | Scalar and vector potentials

Scaling | Electron scattering | Electromagnetic responses | Relativistic mean field | Scalar and vector potentials

Journal Article

Annales Henri PoincarÃ©, ISSN 1424-0637, 10/2019, Volume 20, Issue 10, pp. 3471 - 3508

We consider the Nelson model with ultraviolet cutoff, which describes the interaction between non-relativistic particles and a positive or zero mass quantized...

81Q05 | Mathematical Methods in Physics | 82C10 | Theoretical, Mathematical and Computational Physics | 81T10 | 35Q55 | Quantum Physics | Dynamical Systems and Ergodic Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | DERIVATION | APPROXIMATION | PARTICLES | PHYSICS, MULTIDISCIPLINARY | WELL-POSEDNESS | PRINCIPLE | CLASSICAL LIMIT | PHYSICS, MATHEMATICAL | SCATTERING THEORY | EVOLUTION | EQUATION | PHYSICS, PARTICLES & FIELDS

81Q05 | Mathematical Methods in Physics | 82C10 | Theoretical, Mathematical and Computational Physics | 81T10 | 35Q55 | Quantum Physics | Dynamical Systems and Ergodic Theory | Classical and Quantum Gravitation, Relativity Theory | Physics | Elementary Particles, Quantum Field Theory | DERIVATION | APPROXIMATION | PARTICLES | PHYSICS, MULTIDISCIPLINARY | WELL-POSEDNESS | PRINCIPLE | CLASSICAL LIMIT | PHYSICS, MATHEMATICAL | SCATTERING THEORY | EVOLUTION | EQUATION | PHYSICS, PARTICLES & FIELDS

Journal Article

Physical Review C - Nuclear Physics, ISSN 0556-2813, 04/2010, Volume 81, Issue 4

The framework of relativistic energy-density functionals is extended to include correlations related to the restoration of broken symmetries and to...

TRANSITION | ISOTOPES | ROTATION | COEXISTENCE | SHAPE | GENERATOR-COORDINATE METHOD | HARTREE-BOGOLIUBOV THEORY | PHYSICS, NUCLEAR | PARTICLE NUMBER | MG-24 | NUCLEAR-STRUCTURE | VARIATIONS | CALCULATION METHODS | ENERGY RANGE | CORRELATIONS | STABLE ISOTOPES | ENERGY DENSITY | NUCLEAR DEFORMATION | FUNCTIONS | PARTICLE PROPERTIES | RELATIVISTIC RANGE | WAVE FUNCTIONS | ANGULAR MOMENTUM | MIXING | MEAN-FIELD THEORY | SYMMETRY BREAKING | MAGNESIUM ISOTOPES | ALKALINE EARTH ISOTOPES | LIGHT NUCLEI | CONFIGURATION MIXING | SPIN | EVEN-EVEN NUCLEI | INTERACTIONS | DEFORMATION | NUCLEAR PHYSICS AND RADIATION PHYSICS | NUCLEI | FLUCTUATIONS | MAGNESIUM 24

TRANSITION | ISOTOPES | ROTATION | COEXISTENCE | SHAPE | GENERATOR-COORDINATE METHOD | HARTREE-BOGOLIUBOV THEORY | PHYSICS, NUCLEAR | PARTICLE NUMBER | MG-24 | NUCLEAR-STRUCTURE | VARIATIONS | CALCULATION METHODS | ENERGY RANGE | CORRELATIONS | STABLE ISOTOPES | ENERGY DENSITY | NUCLEAR DEFORMATION | FUNCTIONS | PARTICLE PROPERTIES | RELATIVISTIC RANGE | WAVE FUNCTIONS | ANGULAR MOMENTUM | MIXING | MEAN-FIELD THEORY | SYMMETRY BREAKING | MAGNESIUM ISOTOPES | ALKALINE EARTH ISOTOPES | LIGHT NUCLEI | CONFIGURATION MIXING | SPIN | EVEN-EVEN NUCLEI | INTERACTIONS | DEFORMATION | NUCLEAR PHYSICS AND RADIATION PHYSICS | NUCLEI | FLUCTUATIONS | MAGNESIUM 24

Journal Article

Nuclear Physics, Section A, ISSN 0375-9474, 1999, Volume 656, Issue 3, pp. 331 - 364

Nuclear matter and ground state properties for (proton and neutron) semi-closed shell nuclei are described in relativistic mean field theory with coupling...

Exotic nuclei | Density-dependent coupling | Relativistic mean field theory | Finite nuclei | Nuclear matter | Rearrangement | DIRAC-BRUECKNER APPROACH | nuclear matter | HARTREE-BOGOLIUBOV THEORY | DRIP-LINE NUCLEI | MANY-BODY THEORY | PHYSICS, NUCLEAR | exotic nuclei | SKYRME PARAMETRIZATION | finite nuclei | FINITE-NUCLEI | relativistic mean field theory | LARGE NEUTRON EXCESS | HEAVY-ION COLLISIONS | density-dependent coupling | GROUND-STATE PROPERTIES | rearrangement

Exotic nuclei | Density-dependent coupling | Relativistic mean field theory | Finite nuclei | Nuclear matter | Rearrangement | DIRAC-BRUECKNER APPROACH | nuclear matter | HARTREE-BOGOLIUBOV THEORY | DRIP-LINE NUCLEI | MANY-BODY THEORY | PHYSICS, NUCLEAR | exotic nuclei | SKYRME PARAMETRIZATION | finite nuclei | FINITE-NUCLEI | relativistic mean field theory | LARGE NEUTRON EXCESS | HEAVY-ION COLLISIONS | density-dependent coupling | GROUND-STATE PROPERTIES | rearrangement

Journal Article