Nuclear masses in the fermion dynamical symmetry model
- 1 March 1992
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review C
- Vol. 45 (3) , 1127-1144
- https://doi.org/10.1103/physrevc.45.1127
Abstract
A new microscopic nuclear mass formula is derived from the fermion dynamical symmetry model. A Strutinsky-like spherical single-particle shell correction is introduced, but the principle part of the pairing and deformation are treated microscopically through the pairing and quadrupole-quadrupole two-body interaction, without introducing a deformed mean-field or BCS approximation. The results are in excellent agreement with existing mass data in the actinide region and suggest the possibility of a new region of superheavy elements near Z=114 and N=164. This mass formula has been utilized in the study of r processes in astrophysical problems with encouraging preliminary results.Keywords
This publication has 19 references indexed in Scilit:
- Dynamical Pauli effect on geometryJournal of Physics G: Nuclear and Particle Physics, 1989
- Nuclear masses from a unified macroscopic-microscopic modelAtomic Data and Nuclear Data Tables, 1988
- Vector coherent state theory for the Sp(6)⊃U(3) branch of the S, D, fermion pair algebraNuclear Physics A, 1988
- Dynamical Pauli effects and the saturation of nuclear collectivityPhysics Letters B, 1988
- Fermion dynamical symmetry model of nuclei: Basis, Hamiltonian, and symmetriesPhysical Review C, 1987
- A microscopic formula for actinide massesPhysics Letters B, 1987
- Fermion dynamical symmetries and the nuclear shell modelPhysics Letters B, 1986
- A new semiempirical shell correction to the droplet model: Gross theory of nuclear magicsAtomic Data and Nuclear Data Tables, 1976
- Development of the semiempirical droplet modelAtomic Data and Nuclear Data Tables, 1976
- Shell effects in nuclear masses and deformation energiesNuclear Physics A, 1967