Calculated masses of heaviest nuclei
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- 1 June 2003
- journal article
- Published by Pleiades Publishing Ltd in Physics of Atomic Nuclei
- Vol. 66 (6) , 1015-1019
- https://doi.org/10.1134/1.1586412
Abstract
Masses of heaviest nuclei are calculated within a macroscopic-microscopic approach. Even-even, odd-A, and odd-odd nuclides are considered. A large region of nuclei with proton and neutron numbers of Z=82–128 and N=126–192, respectively, is analyzed. The results are compared with those of other macroscopic-microscopic and of recent microscopic Hartree-Fock-BCS calculations. Alpha-decay energies are also given.Keywords
This publication has 12 references indexed in Scilit:
- Synthesis of superheavy nuclei: How accurately can we describe it and calculate the cross sections?Physical Review C, 2001
- Towards a Hartree-Fock mass formulaPhysical Review C, 2000
- Effect of the entrance channel on the synthesis of superheavy elementsThe European Physical Journal A, 2000
- The analysis of reactions leading to synthesis of super heavy elements within the dinuclear system conceptPramana, 1999
- The N evaluation of nuclear and decay propertiesNuclear Physics A, 1997
- Nuclear properties according to the Thomas-Fermi modelNuclear Physics A, 1996
- Compound nucleus formation in reactions between massive nuclei: Fusion barrierPhysical Review C, 1995
- Ground-state properties of the heaviest nuclei analyzed in a multidimensional deformation spaceNuclear Physics A, 1991
- Single-particle energies, wave functions, quadrupole moments and g-factors in an axially deformed woods-saxon potential with applications to the two-centre-type nuclear problemsComputer Physics Communications, 1987
- Unified nuclear potential for heavy-ion elastic scattering, fusion, fission, and ground-state masses and deformationsPhysical Review C, 1979