Shape of the Island of Superheavy Nuclei
- 6 September 1971
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 27 (10) , 681-685
- https://doi.org/10.1103/physrevlett.27.681
Abstract
On the basis of the Strutinsky shell-correction method applied to realistic diffuse-surface potentials we have calculated the shape of the island of superheavy nuclei. With respect to spontaneous fission, the island is a mountain ridge extending from 114 protons to about 124 protons. The descent from the mountain down to the sea of instability is rather gentle for decreasing neutron numbers below 184, but is more rapid on the other three sides.Keywords
This publication has 11 references indexed in Scilit:
- On oblate-prolate transitions in the fission of superheavy nucleiPhysics Letters B, 1971
- Droplet model nuclear density distributions and single-particle potential wellsNuclear Physics A, 1970
- Further theoretical results on the stability of superheavy nucleiNuclear Physics A, 1970
- Investigation of the stability of superheavy nuclei aroundZ=114 andZ=164The European Physical Journal A, 1969
- A method for solving the independent-particle Schrödinger equation with a deformed average fieldNuclear Physics A, 1969
- On the nuclear structure and stability of heavy and superheavy elementsNuclear Physics A, 1969
- Validity of Nuclear Deformation Energies Obtained from Single-Particle LevelsPhysical Review Letters, 1969
- “Shells” in deformed nucleiNuclear Physics A, 1968
- Shell effects in nuclear masses and deformation energiesNuclear Physics A, 1967
- Nuclear Constitution and the Interpretation of Fission PhenomenaPhysical Review B, 1953