Bereiche | Tage | Auswahl | Suche | Downloads | Hilfe

HK: Physik der Hadronen und Kerne

HK 7: Kern- und Teilchen-Astrophysik I

HK 7.8: Vortrag

Montag, 17. März 2003, 18:00–18:15, F

Nuclear Structure Surprises around ¹³²Sn — •Alexander Ostrowski¹, Bernd Pfeiffer¹, Karl-Ludwig Kratz¹, William Walters², and Andreas Woehr² — ¹Institut fuer Kernchemie, Fritz-Strassmann-Weg 2, 55128 Mainz — ²Dept. of Chemistry, University of Maryland

Explosive stellar nucleosynthesis is closely linked to the evolution of nuclear properties far from β-stability. Knowledge of T_1/2, Pn and Q-values of such nuclei is vital to the predictive power of nuclear structure models used in this context. In particular, nuclear structure around magic neutron shell numbers, i.e. N=50, 82 and 126 is an indespensible ingredient in r-process calculations. To this end, we have studied experimentally Ag, Cd, In and Sn-Isotopes using the combined selectivities of neutron converter production target, RILIS and HRS at the ISOLDE-facility at CERN.

A series of surprising deviations from most recent nuclear structure predictions has been discovered including the unprecedentedly high energy of the first 1⁺-State in ¹³⁰In, the behaviour of the rather high Q_β- and B(E2)-values in neutron-rich Cd-Isotopes and the low lying SP p- and d-states in ¹³³Sn and ¹³⁵Sb. The method, the data reduction, the experimental findings and their comparison with nuclear and astrophysical model predictions will be presented.