Abstract
The connection between the super-deformed (SD) and normal-deformed (ND) states had not been observed, owing its difficulty to a statistical, highly fragmented decay path out of the SD bands. This left both the spin and the excitation energy of the SD bands undetermined. In this paper, the authors present results of a new experimental approach, where they take advantage of triple and higher-fold coincidences to study the decay-out of a SD band. They carried out an experiment at the Niels Bohr Institute Tandem Accelerator Laboratory, where they used the (160 MeV) {sup 37}Cl + {sup 110}Pd {yields} {sup 143}Eu + 4n reaction. 9 refs., 3 figs.
Citation Formats
Atac, A, Piiparinen, M, and Herskind, B.
Decay out of the superdeformed band in {sup 143}Eu.
Canada: N. p.,
1992.
Web.
Atac, A, Piiparinen, M, & Herskind, B.
Decay out of the superdeformed band in {sup 143}Eu.
Canada.
Atac, A, Piiparinen, M, and Herskind, B.
1992.
"Decay out of the superdeformed band in {sup 143}Eu."
Canada.
@misc{etde_520559,
title = {Decay out of the superdeformed band in {sup 143}Eu}
author = {Atac, A, Piiparinen, M, and Herskind, B}
abstractNote = {The connection between the super-deformed (SD) and normal-deformed (ND) states had not been observed, owing its difficulty to a statistical, highly fragmented decay path out of the SD bands. This left both the spin and the excitation energy of the SD bands undetermined. In this paper, the authors present results of a new experimental approach, where they take advantage of triple and higher-fold coincidences to study the decay-out of a SD band. They carried out an experiment at the Niels Bohr Institute Tandem Accelerator Laboratory, where they used the (160 MeV) {sup 37}Cl + {sup 110}Pd {yields} {sup 143}Eu + 4n reaction. 9 refs., 3 figs.}
place = {Canada}
year = {1992}
month = {Aug}
}
title = {Decay out of the superdeformed band in {sup 143}Eu}
author = {Atac, A, Piiparinen, M, and Herskind, B}
abstractNote = {The connection between the super-deformed (SD) and normal-deformed (ND) states had not been observed, owing its difficulty to a statistical, highly fragmented decay path out of the SD bands. This left both the spin and the excitation energy of the SD bands undetermined. In this paper, the authors present results of a new experimental approach, where they take advantage of triple and higher-fold coincidences to study the decay-out of a SD band. They carried out an experiment at the Niels Bohr Institute Tandem Accelerator Laboratory, where they used the (160 MeV) {sup 37}Cl + {sup 110}Pd {yields} {sup 143}Eu + 4n reaction. 9 refs., 3 figs.}
place = {Canada}
year = {1992}
month = {Aug}
}