Abstract
The analysis of the spectroscopic properties of the spherical and transitional nuclei is performed from the point of view of the relation between the single-particle and collective degrees of freedom on the ground of the core-particle coupling model with the total angular momentum conserved and without any unphysical parameters (such as the attenuation parameter). A new definition of the rotational alignment is given. The staggering effect is interpreted as a manifestation of the vibrational structure. The rotational dependence of the energy gap parameter is shown to have an influence on the energy spectra of the transitional nuclei. The nuclei with A 130 are shown to have a tendency to be rather rigid. The vibrational and rotational structures, and the magnitude of the rotation-particle coupling in the considered nuclei are determined. 18 figs., 9 tabs., 66 refs. (author).
Citation Formats
Chlebowska, D.
Coupling of collective and single-particle degrees of freedom in atomic nuclei (commentary to thesis qualifying for assistant-professorship); Sprzezenie kolektywnych i jednoczastkowych stopni swobody w jadrach atomowych (komentarz do rozprawy habilitacyjnej).
Poland: N. p.,
1992.
Web.
Chlebowska, D.
Coupling of collective and single-particle degrees of freedom in atomic nuclei (commentary to thesis qualifying for assistant-professorship); Sprzezenie kolektywnych i jednoczastkowych stopni swobody w jadrach atomowych (komentarz do rozprawy habilitacyjnej).
Poland.
Chlebowska, D.
1992.
"Coupling of collective and single-particle degrees of freedom in atomic nuclei (commentary to thesis qualifying for assistant-professorship); Sprzezenie kolektywnych i jednoczastkowych stopni swobody w jadrach atomowych (komentarz do rozprawy habilitacyjnej)."
Poland.
@misc{etde_10138947,
title = {Coupling of collective and single-particle degrees of freedom in atomic nuclei (commentary to thesis qualifying for assistant-professorship); Sprzezenie kolektywnych i jednoczastkowych stopni swobody w jadrach atomowych (komentarz do rozprawy habilitacyjnej)}
author = {Chlebowska, D}
abstractNote = {The analysis of the spectroscopic properties of the spherical and transitional nuclei is performed from the point of view of the relation between the single-particle and collective degrees of freedom on the ground of the core-particle coupling model with the total angular momentum conserved and without any unphysical parameters (such as the attenuation parameter). A new definition of the rotational alignment is given. The staggering effect is interpreted as a manifestation of the vibrational structure. The rotational dependence of the energy gap parameter is shown to have an influence on the energy spectra of the transitional nuclei. The nuclei with A 130 are shown to have a tendency to be rather rigid. The vibrational and rotational structures, and the magnitude of the rotation-particle coupling in the considered nuclei are determined. 18 figs., 9 tabs., 66 refs. (author).}
place = {Poland}
year = {1992}
month = {Nov}
}
title = {Coupling of collective and single-particle degrees of freedom in atomic nuclei (commentary to thesis qualifying for assistant-professorship); Sprzezenie kolektywnych i jednoczastkowych stopni swobody w jadrach atomowych (komentarz do rozprawy habilitacyjnej)}
author = {Chlebowska, D}
abstractNote = {The analysis of the spectroscopic properties of the spherical and transitional nuclei is performed from the point of view of the relation between the single-particle and collective degrees of freedom on the ground of the core-particle coupling model with the total angular momentum conserved and without any unphysical parameters (such as the attenuation parameter). A new definition of the rotational alignment is given. The staggering effect is interpreted as a manifestation of the vibrational structure. The rotational dependence of the energy gap parameter is shown to have an influence on the energy spectra of the transitional nuclei. The nuclei with A 130 are shown to have a tendency to be rather rigid. The vibrational and rotational structures, and the magnitude of the rotation-particle coupling in the considered nuclei are determined. 18 figs., 9 tabs., 66 refs. (author).}
place = {Poland}
year = {1992}
month = {Nov}
}