Towards a unified collective model for the nuclear quadrupole and octupole modes
- 1 June 1982
- journal article
- Published by IOP Publishing in Journal of Physics G: Nuclear Physics
- Vol. 8 (6) , 787-819
- https://doi.org/10.1088/0305-4616/8/6/010
Abstract
The original collective Hamiltonian is generalised to coupled multipole modes describing low-energy collective motion in nuclei. This Hamiltonian is applied to the quadrupole and octupole degrees of freedom coupled to each other. Methods for a numerical solution of the full problem are presented. The well known models of octupole excitations in spherical and strongly deformed nuclei are derived by means of the small-amplitude expansion around the equilibrium. A model of this kind is also derived for the case when a static octupole deformation occurs, which seems to be essential for nuclei in the Ra-Th region.Keywords
This publication has 34 references indexed in Scilit:
- Group theory of the collective model of the nucleusJournal of Mathematical Physics, 1977
- Exact solution of the quadrupole surface vibration Hamiltonian in body-fixed coordinatesPhysical Review C, 1976
- The competition between different degrees of freedom in the structure of the quintet states of negative parity of some even-even Sn isotopesAnnals of Physics, 1976
- Solution of bohr's collective hamiltonianNuclear Physics A, 1970
- Octupole vibrations of deformed nucleiThe European Physical Journal A, 1966
- Collective model for negative parity states in deformed even nucleiNuclear Physics, 1965
- Time-dependent self-consistent field and collective nuclear HamiltonianNuclear Physics, 1965
- Rotations and Vibrations in Deformed NucleiReviews of Modern Physics, 1965
- A model for odd parity states in even nucleiNuclear Physics, 1962
- Study of Nuclear Structure by Electromagnetic Excitation with Accelerated IonsReviews of Modern Physics, 1956