New formulas to calculate the nuclear charge radii and the nuclear binding energies have been derived in the framework of an alpha-cluster model. The particular features of the model are two assumptions that the proton-neutron pair interactions are responsible for adherence between alpha-clusters and that the proton and the neutron from a proton-neutron pair have equal nuclear potentials. These assumptions allow one to determine the charge and Coulomb radii in dependence on the amount of proton-neutron pairs in the nucleus. Unlike the Weizsacker's formula to calculate nuclear binding energies, in the model the binding energies of alpha-clusters and excess neutrons are estimated separately. The calculated values are in a good agreement with ...
A new formula for the nuclear charge radius is proposed, dependent on the mass number (A) and neutro...
The optical potential for the elastic scattering of a-particles has been related to the effective a-...
A six-parameter energy density functional is used to calculate self-consistently the binding energie...
The alpha-cluster model is based on two assumptions that the proton-neutron pair interactions are re...
The model of binding alpha-particles in nuclei is suggested. It is shown good (with the accuracy of ...
The model of nuclear matter built from alpha-particles is proposed. In this model nuclei possess the...
The Faddeev-Yakubovsky equations for the alpha-particle are solved. Accurate results are obtained fo...
A modified phenomenological formula for the ground state binding energy in the region of light nucle...
The description of a nuclear system in its ground state and at low excitations based on the equation...
The parameters of the interaction potential between alpha-particle and nucleus are evaluated in the ...
The density distribution of nucleons, the range of the Yukawa force and the strength of mesic charge...
It has been suggested recently ({____it Phys. Rev. Lett.} 91, 232501 (2003)) that the widths of narr...
Based on the systematic investigation of the data available, a Z1/3 law for nuclear charge radii is ...
Realistic model calculations are fundamental to any physical problem. The statistical model continue...
Nuclear many-body system is usually described through a mean-field built upon a nucleon-nucleon effe...
A new formula for the nuclear charge radius is proposed, dependent on the mass number (A) and neutro...
The optical potential for the elastic scattering of a-particles has been related to the effective a-...
A six-parameter energy density functional is used to calculate self-consistently the binding energie...
The alpha-cluster model is based on two assumptions that the proton-neutron pair interactions are re...
The model of binding alpha-particles in nuclei is suggested. It is shown good (with the accuracy of ...
The model of nuclear matter built from alpha-particles is proposed. In this model nuclei possess the...
The Faddeev-Yakubovsky equations for the alpha-particle are solved. Accurate results are obtained fo...
A modified phenomenological formula for the ground state binding energy in the region of light nucle...
The description of a nuclear system in its ground state and at low excitations based on the equation...
The parameters of the interaction potential between alpha-particle and nucleus are evaluated in the ...
The density distribution of nucleons, the range of the Yukawa force and the strength of mesic charge...
It has been suggested recently ({____it Phys. Rev. Lett.} 91, 232501 (2003)) that the widths of narr...
Based on the systematic investigation of the data available, a Z1/3 law for nuclear charge radii is ...
Realistic model calculations are fundamental to any physical problem. The statistical model continue...
Nuclear many-body system is usually described through a mean-field built upon a nucleon-nucleon effe...
A new formula for the nuclear charge radius is proposed, dependent on the mass number (A) and neutro...
The optical potential for the elastic scattering of a-particles has been related to the effective a-...
A six-parameter energy density functional is used to calculate self-consistently the binding energie...