Abstract
An explanation is sought for ``identical`` moments of inertia for pairs of rotational bands in superdeformed nuclei differing in particle number. The authors postulate that certain nucleons do not participate in the collective rotation. The energy of superdeformed {sup 152}Dy has been calculated using this model with a deformed Woods-Saxon potential and full mixing of oscillator shells. A significant reduction in energy is achieved when the protons and neutron with asymptotic quantum number N < 4 constitute a nonrotating factor, as compared to the conventional prolate nucleus. 9 refs.
Schmeing, N C
[1]
- Atomic Energy of Canada Ltd., Chalk River, ON (Canada). Chalk River Nuclear Labs.
Citation Formats
Schmeing, N C.
Identical bands in (even, odd) nuclei as evidence for spectator nucleons.
Canada: N. p.,
1992.
Web.
Schmeing, N C.
Identical bands in (even, odd) nuclei as evidence for spectator nucleons.
Canada.
Schmeing, N C.
1992.
"Identical bands in (even, odd) nuclei as evidence for spectator nucleons."
Canada.
@misc{etde_520576,
title = {Identical bands in (even, odd) nuclei as evidence for spectator nucleons}
author = {Schmeing, N C}
abstractNote = {An explanation is sought for ``identical`` moments of inertia for pairs of rotational bands in superdeformed nuclei differing in particle number. The authors postulate that certain nucleons do not participate in the collective rotation. The energy of superdeformed {sup 152}Dy has been calculated using this model with a deformed Woods-Saxon potential and full mixing of oscillator shells. A significant reduction in energy is achieved when the protons and neutron with asymptotic quantum number N < 4 constitute a nonrotating factor, as compared to the conventional prolate nucleus. 9 refs.}
place = {Canada}
year = {1992}
month = {Aug}
}
title = {Identical bands in (even, odd) nuclei as evidence for spectator nucleons}
author = {Schmeing, N C}
abstractNote = {An explanation is sought for ``identical`` moments of inertia for pairs of rotational bands in superdeformed nuclei differing in particle number. The authors postulate that certain nucleons do not participate in the collective rotation. The energy of superdeformed {sup 152}Dy has been calculated using this model with a deformed Woods-Saxon potential and full mixing of oscillator shells. A significant reduction in energy is achieved when the protons and neutron with asymptotic quantum number N < 4 constitute a nonrotating factor, as compared to the conventional prolate nucleus. 9 refs.}
place = {Canada}
year = {1992}
month = {Aug}
}