International Journal of Modern Physics E, ISSN 0218-3013, 12/2016, Volume 25, Issue 12, p. 1650108

The charge radii, the proton and neutron systems radii, as well as the matter radii of N ≈ Z odd-mass nuclei are studied using a particle-number projection...

odd-mass nuclei | radii | particle-number projection | Isovector pairing

odd-mass nuclei | radii | particle-number projection | Isovector pairing

Journal Article

Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics, ISSN 0370-2693, 03/2019, Volume 790, pp. 251 - 256

A thick neutron skin emerges from the first determination of root mean square radii of the proton distributions for N from charge changing cross section...

Radioactive beams | Shell model | Magic number | Neutron skin | Proton and matter radii | Ab initio theory

Radioactive beams | Shell model | Magic number | Neutron skin | Proton and matter radii | Ab initio theory

Journal Article

Physics Letters B, ISSN 0370-2693, 03/2019, Volume 790, Issue C, pp. 251 - 256

A thick neutron skin emerges from the first determination of root mean square radii of the proton distributions for N from charge changing cross section...

Proton and matter radii | Radioactive beams | Shell model | Magic number | Neutron skin | Ab initio theory | magic number | PHYSICS OF ELEMENTARY PARTICLES AND FIELDS | radioactive beams | neutron skin | shell model | ab initio theory | proton and matter radii

Proton and matter radii | Radioactive beams | Shell model | Magic number | Neutron skin | Ab initio theory | magic number | PHYSICS OF ELEMENTARY PARTICLES AND FIELDS | radioactive beams | neutron skin | shell model | ab initio theory | proton and matter radii

Journal Article

PHYSICS LETTERS B, ISSN 0370-2693, 03/2019, Volume 790, pp. 251 - 256

A thick neutron skin emerges from the first determination of root mean square radii of the proton distributions for N17-22 from charge changing cross section...

CROSS-SECTIONS | Proton and matter radii | CHARGE RADII | PHYSICS, NUCLEAR | COUPLED-CLUSTER EQUATIONS | Ab initio theory | Radioactive beams | Shell model | Magic number | ASTRONOMY & ASTROPHYSICS | Neutron skin | HARTREE-BOGOLIUBOV DESCRIPTION | HALO | MOMENTS | PHYSICS, PARTICLES & FIELDS

CROSS-SECTIONS | Proton and matter radii | CHARGE RADII | PHYSICS, NUCLEAR | COUPLED-CLUSTER EQUATIONS | Ab initio theory | Radioactive beams | Shell model | Magic number | ASTRONOMY & ASTROPHYSICS | Neutron skin | HARTREE-BOGOLIUBOV DESCRIPTION | HALO | MOMENTS | PHYSICS, PARTICLES & FIELDS

Journal Article

Nuclear Physics, Section A, ISSN 0375-9474, 2001, Volume 691, Issue 3, pp. 599 - 617

We measured the interaction cross sections (sigma (I)) of (10),B-11, C12-20, N14-23, O16-24 and F18-26 on carbon targets at energies of around 950 A MeV. We...

Nuclear reactions C( 10,11B, 10,11B), ( 12–20C, 12–20C), ( 14–23N, 14–23N), ( 16–24O, 16–24O), ( 18–26F, 18–26F), [formula omitted] MeV [formula omitted]nucleon | Measured interaction [formula omitted] | 10,11B, 12–20C, 14–23N, 16–24O, 18–26F deduced effective radii | GLAUBER MODEL ANALYSIS | MOMENT | measured interaction sigma | C(B-10,B-11,B-10,B-11), (C12-20,C12-20), (N14-23,N14-23), (O16-24,O16-24), (F18-26,F18-26), E similar to 950 MeV/nucleon | PHYSICS, NUCLEAR | FRAGMENTATION | C-19 | B-8 | ISOTOPES | REMOVAL | HALO STRUCTURE | B-10,B-11, C12-20, N14-23, O16-24, F18-26 deduced effective radii | DRIP-LINE | PROTON HALO

Nuclear reactions C( 10,11B, 10,11B), ( 12–20C, 12–20C), ( 14–23N, 14–23N), ( 16–24O, 16–24O), ( 18–26F, 18–26F), [formula omitted] MeV [formula omitted]nucleon | Measured interaction [formula omitted] | 10,11B, 12–20C, 14–23N, 16–24O, 18–26F deduced effective radii | GLAUBER MODEL ANALYSIS | MOMENT | measured interaction sigma | C(B-10,B-11,B-10,B-11), (C12-20,C12-20), (N14-23,N14-23), (O16-24,O16-24), (F18-26,F18-26), E similar to 950 MeV/nucleon | PHYSICS, NUCLEAR | FRAGMENTATION | C-19 | B-8 | ISOTOPES | REMOVAL | HALO STRUCTURE | B-10,B-11, C12-20, N14-23, O16-24, F18-26 deduced effective radii | DRIP-LINE | PROTON HALO

Journal Article

Physical Review C - Nuclear Physics, ISSN 0556-2813, 03/2008, Volume 77, Issue 3

Interaction cross sections (sigma(I)) of Kr-72,Kr-76,Kr-80 on a C target were measured at the projectile fragment separator FRS at GSI. Effective matter radii...

INTERACTION CROSS-SECTIONS | DECAY | MEAN-FIELD THEORY | BEHAVIOR | RELATIVISTIC HEAVY-IONS | PROTON-RICH GA | CHARGE RADII | DENSITY-DISTRIBUTION | PHYSICS, NUCLEAR | GROUND-STATE PROPERTIES | IDENTIFICATION | CARBON | NEUTRONS | SKYRME POTENTIAL | GLAUBER THEORY | COMPARATIVE EVALUATIONS | INTERACTIONS | PROTONS | RELATIVISTIC RANGE | NUCLEAR MATTER | NUCLEAR PHYSICS AND RADIATION PHYSICS | CROSS SECTIONS | NEUTRON-DEFICIENT ISOTOPES | FORECASTING | KRYPTON 76 | KRYPTON 72 | HARTREE-FOCK-BOGOLYUBOV THEORY | KRYPTON 80

INTERACTION CROSS-SECTIONS | DECAY | MEAN-FIELD THEORY | BEHAVIOR | RELATIVISTIC HEAVY-IONS | PROTON-RICH GA | CHARGE RADII | DENSITY-DISTRIBUTION | PHYSICS, NUCLEAR | GROUND-STATE PROPERTIES | IDENTIFICATION | CARBON | NEUTRONS | SKYRME POTENTIAL | GLAUBER THEORY | COMPARATIVE EVALUATIONS | INTERACTIONS | PROTONS | RELATIVISTIC RANGE | NUCLEAR MATTER | NUCLEAR PHYSICS AND RADIATION PHYSICS | CROSS SECTIONS | NEUTRON-DEFICIENT ISOTOPES | FORECASTING | KRYPTON 76 | KRYPTON 72 | HARTREE-FOCK-BOGOLYUBOV THEORY | KRYPTON 80

Journal Article

Nuclear Physics, Section A, ISSN 0375-9474, 09/2019, Volume 989, pp. 40 - 58

Absolute differential cross sections for elastic Be and B small-angle scattering were measured in inverse kinematics at an energy of 0.7 GeV/u at GSI...

Proton-nucleus elastic scattering | 7Be | Nuclear matter distribution | Nuclear matter radii

Proton-nucleus elastic scattering | 7Be | Nuclear matter distribution | Nuclear matter radii

Journal Article

INTERNATIONAL JOURNAL OF MODERN PHYSICS E-NUCLEAR PHYSICS, ISSN 0218-3013, 07/2015, Volume 24, Issue 7

Proton elastic scattering at various incident energies is one method to study nuclear density distributions and nuclear radii. Single folding potential...

ALPHA-PARTICLES | OPTICAL-MODEL POTENTIALS | SIZES | cross-section | PHYSICS, NUCLEAR | INELASTIC-SCATTERING | PROTON | elastic scattering | Optical potential | RANGE | PHYSICS, PARTICLES & FIELDS

ALPHA-PARTICLES | OPTICAL-MODEL POTENTIALS | SIZES | cross-section | PHYSICS, NUCLEAR | INELASTIC-SCATTERING | PROTON | elastic scattering | Optical potential | RANGE | PHYSICS, PARTICLES & FIELDS

Journal Article

NUCLEAR PHYSICS A, ISSN 0375-9474, 09/2019, Volume 989, pp. 40 - 58

Absolute differential cross sections for elastic p(7)Be and p(8)B small-angle scattering were measured in inverse kinematics at an energy of 0.7 GeV/u at GSI...

CROSS-SECTIONS | Nuclear matter radii | NEUTRON HALO | BREAKUP | PHYSICS, NUCLEAR | MODEL | B-8 | Proton-nucleus elastic scattering | ISOTOPES | Be-7 | RADIUS | DENSITY DISTRIBUTION | HALO STRUCTURE | PI-P | BE-7(P,GAMMA)B-8 | Nuclear matter distribution

CROSS-SECTIONS | Nuclear matter radii | NEUTRON HALO | BREAKUP | PHYSICS, NUCLEAR | MODEL | B-8 | Proton-nucleus elastic scattering | ISOTOPES | Be-7 | RADIUS | DENSITY DISTRIBUTION | HALO STRUCTURE | PI-P | BE-7(P,GAMMA)B-8 | Nuclear matter distribution

Journal Article

Physics Letters B, ISSN 0370-2693, 03/2014, Volume 730, pp. 30 - 35

Recent reaction measurements have been interpreted as evidence of a halo structure in the exotic neutron-rich isotopes Ne. While theoretical studies of Ne...

Neutron halo | Matter radii | Density distributions | Single-particle resonant p–f orbitals | 29,31Ne | Single-particle resonant p-f orbitals | PAIRING CORRELATIONS | HARTREE-BOGOLIUBOV THEORY | PHYSICS, MULTIDISCIPLINARY | GIANT HALO | NEUTRON DRIP-LINE | PLUS BCS APPROACH | PROTON | ISOTOPES | MEAN-FIELD THEORY | Ne-29,Ne-31 | CONTINUUM | LIGHT-NUCLEI | Nuclear energy | Analysis | Orbitals | Separation | Halos | Fermi surfaces | Mathematical analysis | Mathematical models | Order disorder | Nuclei | Single-particle resonant p – f orbitals | 29,31 Ne | Nuclear and High Energy Physics | halo nuclei | exotic nuclei | radioactive nuclei | theoretical nuclear physics

Neutron halo | Matter radii | Density distributions | Single-particle resonant p–f orbitals | 29,31Ne | Single-particle resonant p-f orbitals | PAIRING CORRELATIONS | HARTREE-BOGOLIUBOV THEORY | PHYSICS, MULTIDISCIPLINARY | GIANT HALO | NEUTRON DRIP-LINE | PLUS BCS APPROACH | PROTON | ISOTOPES | MEAN-FIELD THEORY | Ne-29,Ne-31 | CONTINUUM | LIGHT-NUCLEI | Nuclear energy | Analysis | Orbitals | Separation | Halos | Fermi surfaces | Mathematical analysis | Mathematical models | Order disorder | Nuclei | Single-particle resonant p – f orbitals | 29,31 Ne | Nuclear and High Energy Physics | halo nuclei | exotic nuclei | radioactive nuclei | theoretical nuclear physics

Journal Article

Physical Review C, ISSN 2469-9985, 09/2017, Volume 96, Issue 3

A novel method for measuring nuclear reactions in inverse kinematics with stored ion beams was successfully used to extract the nuclear-matter radius of Ni-58....

DISTRIBUTIONS | ISOTOPES | UNCERTAINTIES | INTERACTION CROSS-SECTIONS | DENSITIES | INTERMEDIATE-ENERGY | ELASTIC-SCATTERING | PHYSICS, NUCLEAR | MODEL | ALPHA-PARTICLE SCATTERING | PROTON-SCATTERING

DISTRIBUTIONS | ISOTOPES | UNCERTAINTIES | INTERACTION CROSS-SECTIONS | DENSITIES | INTERMEDIATE-ENERGY | ELASTIC-SCATTERING | PHYSICS, NUCLEAR | MODEL | ALPHA-PARTICLE SCATTERING | PROTON-SCATTERING

Journal Article

AIP Conference Proceedings, ISSN 0094-243X, 10/2005, Volume 793, Issue 1, pp. 258 - 263

Experimental studies on nuclear matter radii determined by the interaction cross sections ({sigma}I) are reviewed. In particular, the procedure to determine...

Glauber-model analysis | Deduced r.m.s. matter radii | Measured interaction σ | NUCLEAR MATTER | CROSS SECTIONS | NUCLEAR RADII | RADIOACTIVE ION BEAMS | ATOMIC AND MOLECULAR PHYSICS | NUCLEAR REACTIONS | SENSITIVITY | PROTONS | ACCURACY | JAPANESE ORGANIZATIONS

Glauber-model analysis | Deduced r.m.s. matter radii | Measured interaction σ | NUCLEAR MATTER | CROSS SECTIONS | NUCLEAR RADII | RADIOACTIVE ION BEAMS | ATOMIC AND MOLECULAR PHYSICS | NUCLEAR REACTIONS | SENSITIVITY | PROTONS | ACCURACY | JAPANESE ORGANIZATIONS

Conference Proceeding

Nuclear Physics, Section A, ISSN 0375-9474, 2001, Volume 693, Issue 1, pp. 32 - 62

Experimental studies on nuclear sizes and related topics are reviewed. The recent development of radioactive nuclear beams has enabled us to study the nuclear...

Glauber-model analysis | Deduced matter-density distribution | Deduced r.m.s. matter radii | Measured interaction, reaction, charge-changing [formula omitted] | Measured interaction, reaction, charge-changing σ | 27.30.+t | 25.60.Lg | 21.10.Gv | 25.60.Dz | 27.20.+n | GLAUBER MODEL ANALYSIS | INTERMEDIATE-ENERGY | PHYSICS, NUCLEAR | MATTER RADII | PROTON-SCATTERING | measured interaction, reaction, charge-changing sigma | RELATIVISTIC MEAN-FIELD | REACTION CROSS-SECTIONS | HALO STRUCTURE | DENSITY-DISTRIBUTION | deduced r.m.s. matter radii | deduced matter-density distribution | NEUTRON-RICH NUCLEI | LIGHT-NUCLEI

Glauber-model analysis | Deduced matter-density distribution | Deduced r.m.s. matter radii | Measured interaction, reaction, charge-changing [formula omitted] | Measured interaction, reaction, charge-changing σ | 27.30.+t | 25.60.Lg | 21.10.Gv | 25.60.Dz | 27.20.+n | GLAUBER MODEL ANALYSIS | INTERMEDIATE-ENERGY | PHYSICS, NUCLEAR | MATTER RADII | PROTON-SCATTERING | measured interaction, reaction, charge-changing sigma | RELATIVISTIC MEAN-FIELD | REACTION CROSS-SECTIONS | HALO STRUCTURE | DENSITY-DISTRIBUTION | deduced r.m.s. matter radii | deduced matter-density distribution | NEUTRON-RICH NUCLEI | LIGHT-NUCLEI

Journal Article

CHINESE PHYSICS C, ISSN 1674-1137, 11/2016, Volume 40, Issue 11

The asymptotic normalization coefficients (ANCs) of the virtual decay N-16 -> N-15 + n are extracted from the N-15(Li-7, Li-6)N-16 reaction populating the...

neutron halo nuclei | PHYSICS, NUCLEAR | asymptotic normalization coefficients (ANCs) | matter radius | MATTER DISTRIBUTIONS | MEV/NUCLEON | B-8 | INVERSE KINEMATICS | INTERACTION CROSS-SECTIONS | COULOMB DISSOCIATION | DENSITY DISTRIBUTION | NEUTRON-RICH NUCLEI | PROTON HALO | SCATTERING | PHYSICS, PARTICLES & FIELDS

neutron halo nuclei | PHYSICS, NUCLEAR | asymptotic normalization coefficients (ANCs) | matter radius | MATTER DISTRIBUTIONS | MEV/NUCLEON | B-8 | INVERSE KINEMATICS | INTERACTION CROSS-SECTIONS | COULOMB DISSOCIATION | DENSITY DISTRIBUTION | NEUTRON-RICH NUCLEI | PROTON HALO | SCATTERING | PHYSICS, PARTICLES & FIELDS

Journal Article

Nuclear Physics, Section A, ISSN 0375-9474, 2007, Volume 787, Issue 1, pp. 471 - 475

Interaction cross–sections of Kr on a C target were measured at the projectile fragment separator FRS at GSI. We deduced the effective matter radii of the...

HEAVY-IONS | PROTON-RICH GA | DENSITY-DISTRIBUTION | PHYSICS, NUCLEAR | MATTER RADII | IDENTIFICATION

HEAVY-IONS | PROTON-RICH GA | DENSITY-DISTRIBUTION | PHYSICS, NUCLEAR | MATTER RADII | IDENTIFICATION

Journal Article

International Journal of Modern Physics E, ISSN 0218-3013, 06/2016, Volume 25, Issue 6, p. 1650035

A method for the determination of the pairing-strength constants, in the neutron–proton (n–p) isovector plus isoscalar pairing case, is proposed in the...

pairing-strength constants | charge radius | Neutron-proton pairing | matter radius | ISOSPACE | ENERGY | T=0 | CHARGE RADII | PHYSICS, NUCLEAR | PROTON | NUCLEI | CRANKING | FISSION | PHYSICS, PARTICLES & FIELDS

pairing-strength constants | charge radius | Neutron-proton pairing | matter radius | ISOSPACE | ENERGY | T=0 | CHARGE RADII | PHYSICS, NUCLEAR | PROTON | NUCLEI | CRANKING | FISSION | PHYSICS, PARTICLES & FIELDS

Journal Article

Hyperfine Interactions, ISSN 0304-3843, 8/2000, Volume 127, Issue 1, pp. 95 - 99

Nuclear matter and charge distributions, and the radii of light exotic nuclei have been calculated with the Dynamic Correlation Model and compared with those...

Atoms, Molecules, Clusters and Plasmas | Nuclear Physics, Heavy Ions, Hadrons | two photon spectroscopy | Condensed Matter | nuclear models | proton scattering | charge and matter radii | Surfaces and Interfaces, Thin Films | Physics | electron scattering | Nuclear models | Two-photon spectroscopy | Electron scattering | Charge and matter radii | Proton scattering | PHYSICS, CONDENSED MATTER | RADII | HE-6 | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | PHYSICS, NUCLEAR | two-photon spectroscopy | HALO NUCLEI | SCATTERING

Atoms, Molecules, Clusters and Plasmas | Nuclear Physics, Heavy Ions, Hadrons | two photon spectroscopy | Condensed Matter | nuclear models | proton scattering | charge and matter radii | Surfaces and Interfaces, Thin Films | Physics | electron scattering | Nuclear models | Two-photon spectroscopy | Electron scattering | Charge and matter radii | Proton scattering | PHYSICS, CONDENSED MATTER | RADII | HE-6 | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | PHYSICS, NUCLEAR | two-photon spectroscopy | HALO NUCLEI | SCATTERING

Journal Article

The European Physical Journal A, ISSN 1434-6001, 7/2014, Volume 50, Issue 7, pp. 1 - 9

Quadrupole moments and effective charges are calculated for Li (A = 7, 8, 9, 11) and B (A = 8, 10, 11, 12, 13, 14, 15) isotopes based on the shell model with p...

Nuclear Physics, Heavy Ions, Hadrons | Nuclear Fusion | Physics | Particle and Nuclear Physics | INELASTIC ELECTRON-SCATTERING | PROTON-HALO | CORE POLARIZATION | INTERACTION CROSS-SECTIONS | PHYSICS, NUCLEAR | NEUTRON-RICH NUCLEI | EFFECTIVE CHARGES | MATTER RADII | HALO NUCLEI | B-8 | NUCLEAR SHELL-MODEL | PHYSICS, PARTICLES & FIELDS | Sects | Analysis

Nuclear Physics, Heavy Ions, Hadrons | Nuclear Fusion | Physics | Particle and Nuclear Physics | INELASTIC ELECTRON-SCATTERING | PROTON-HALO | CORE POLARIZATION | INTERACTION CROSS-SECTIONS | PHYSICS, NUCLEAR | NEUTRON-RICH NUCLEI | EFFECTIVE CHARGES | MATTER RADII | HALO NUCLEI | B-8 | NUCLEAR SHELL-MODEL | PHYSICS, PARTICLES & FIELDS | Sects | Analysis

Journal Article

Nuclear Physics, Section A, ISSN 0375-9474, 10/2002, Volume 709, Issue 1-4, pp. 60 - 72

We have measured the interaction cross sections (sigma(I)) of Ar31-40 and Cl31-37 on carbon targets at energies of around 950 A MeV. The effective matter radii...

C(31–37Cl, 31–37Cl) | measured | measured inelastic σ | deduced effective radii | interaction σ | C(31–40Ar, 31–40Ar) | E∼950 MeV/nucleon | 31–40Ar | 31–37Cl | Nuclear reactions | Proton skins for 32–40Ar | E similar to 950 MeV/nucleon | measured interaction sigma | PHYSICS, NUCLEAR | MATTER RADII | measured inelastic sigma | DENSITY | proton skins for Ar32-40 | C(Ar31-40,Ar31-40) | MEAN-FIELD THEORY | C((31-37) Cl,Cl31-37) | Ar31-40 and Cl31-37 deduced effective radii | NA ISOTOPES | LIGHT-NUCLEI

C(31–37Cl, 31–37Cl) | measured | measured inelastic σ | deduced effective radii | interaction σ | C(31–40Ar, 31–40Ar) | E∼950 MeV/nucleon | 31–40Ar | 31–37Cl | Nuclear reactions | Proton skins for 32–40Ar | E similar to 950 MeV/nucleon | measured interaction sigma | PHYSICS, NUCLEAR | MATTER RADII | measured inelastic sigma | DENSITY | proton skins for Ar32-40 | C(Ar31-40,Ar31-40) | MEAN-FIELD THEORY | C((31-37) Cl,Cl31-37) | Ar31-40 and Cl31-37 deduced effective radii | NA ISOTOPES | LIGHT-NUCLEI

Journal Article

Physical Review Letters, ISSN 0031-9007, 07/2016, Volume 117, Issue 5, p. 052501

We present a systematic study of both nuclear radii and binding energies in (even) oxygen isotopes from the valley of stability to the neutron drip line. Both...

EFFECTIVE-FIELD THEORY | MATTER | ELASTIC ELECTRON-SCATTERING | STATES | PHYSICS, MULTIDISCIPLINARY | PROTON | LIGHT-NUCLEI | State of the art | Reproduction | Mathematical analysis | Binding energy | Charge | Binding energy (nuclear) | Oxygen isotopes | Nuclear interactions | Nuclear Experiment | Physics

EFFECTIVE-FIELD THEORY | MATTER | ELASTIC ELECTRON-SCATTERING | STATES | PHYSICS, MULTIDISCIPLINARY | PROTON | LIGHT-NUCLEI | State of the art | Reproduction | Mathematical analysis | Binding energy | Charge | Binding energy (nuclear) | Oxygen isotopes | Nuclear interactions | Nuclear Experiment | Physics

Journal Article