Abstract
Results on the study of quadrupole collectivity in {sup 54,56,58}Ni and {sup 52}Fe using intermediate-energy Coulomb excitation are summarized and discussed in the context of the N = Z = 28 doubly-magic shell closure. A complementary experimental approach sensitive to the single-particle structure of exotic nuclei, one-neutron knockout at intermediate beam energies, has been applied to the proton-rich N = 16 isotones {sup 34}Ar, {sup 33}Cl and {sup 32}S as well as to {sup 32}Ar where the knockout residue {sup 31}Ar is located at the proton drip line. The reduction of single-particle strength compared to USD shell-model calculations is discussed in the framework of correlation effects beyond the effective-interaction theory employed in the shell-model approach. (author)
Gade, A;
Bazin, D;
[1]
Brown, B A;
[1]
Department of Physics and Astronomy, Michigan State University, East Lansing (United States)]
[2]
- NSCL, Michigan State University, East Lansing (United States)
- and others
Citation Formats
Gade, A, Bazin, D, Brown, B A, and Department of Physics and Astronomy, Michigan State University, East Lansing (United States)].
Nuclear Spectroscopy with Fast Exotic Beams[PACS numbers: 25.70.De, 27.40.+z, 24.50.+g, 21.10.Jx].
Poland: N. p.,
2005.
Web.
Gade, A, Bazin, D, Brown, B A, & Department of Physics and Astronomy, Michigan State University, East Lansing (United States)].
Nuclear Spectroscopy with Fast Exotic Beams[PACS numbers: 25.70.De, 27.40.+z, 24.50.+g, 21.10.Jx].
Poland.
Gade, A, Bazin, D, Brown, B A, and Department of Physics and Astronomy, Michigan State University, East Lansing (United States)].
2005.
"Nuclear Spectroscopy with Fast Exotic Beams[PACS numbers: 25.70.De, 27.40.+z, 24.50.+g, 21.10.Jx]."
Poland.
@misc{etde_20617009,
title = {Nuclear Spectroscopy with Fast Exotic Beams[PACS numbers: 25.70.De, 27.40.+z, 24.50.+g, 21.10.Jx]}
author = {Gade, A, Bazin, D, Brown, B A, and Department of Physics and Astronomy, Michigan State University, East Lansing (United States)]}
abstractNote = {Results on the study of quadrupole collectivity in {sup 54,56,58}Ni and {sup 52}Fe using intermediate-energy Coulomb excitation are summarized and discussed in the context of the N = Z = 28 doubly-magic shell closure. A complementary experimental approach sensitive to the single-particle structure of exotic nuclei, one-neutron knockout at intermediate beam energies, has been applied to the proton-rich N = 16 isotones {sup 34}Ar, {sup 33}Cl and {sup 32}S as well as to {sup 32}Ar where the knockout residue {sup 31}Ar is located at the proton drip line. The reduction of single-particle strength compared to USD shell-model calculations is discussed in the framework of correlation effects beyond the effective-interaction theory employed in the shell-model approach. (author)}
journal = []
issue = {4}
volume = {B36}
journal type = {AC}
place = {Poland}
year = {2005}
month = {Apr}
}
title = {Nuclear Spectroscopy with Fast Exotic Beams[PACS numbers: 25.70.De, 27.40.+z, 24.50.+g, 21.10.Jx]}
author = {Gade, A, Bazin, D, Brown, B A, and Department of Physics and Astronomy, Michigan State University, East Lansing (United States)]}
abstractNote = {Results on the study of quadrupole collectivity in {sup 54,56,58}Ni and {sup 52}Fe using intermediate-energy Coulomb excitation are summarized and discussed in the context of the N = Z = 28 doubly-magic shell closure. A complementary experimental approach sensitive to the single-particle structure of exotic nuclei, one-neutron knockout at intermediate beam energies, has been applied to the proton-rich N = 16 isotones {sup 34}Ar, {sup 33}Cl and {sup 32}S as well as to {sup 32}Ar where the knockout residue {sup 31}Ar is located at the proton drip line. The reduction of single-particle strength compared to USD shell-model calculations is discussed in the framework of correlation effects beyond the effective-interaction theory employed in the shell-model approach. (author)}
journal = []
issue = {4}
volume = {B36}
journal type = {AC}
place = {Poland}
year = {2005}
month = {Apr}
}