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HK: Physik der Hadronen und Kerne
HK 2: Nuclear Structure/Spectroscopy I
HK 2.6: Vortrag
Montag, 8. März 2004, 17:45–18:00, A
Half-life measurements of fully-ionized 207Tl atoms — •D. Boutin1, L. Maier2, T. Yamaguchi1,3, F. Bosch1, C. Scheidenberger1, K. Beckert1, P. Beller1, T. Faestermann2, B. Franczak1, H. Geissel1,4, E. Kaza1, P. Kienle2, O. Klepper1, C. Kozhuharov1, Yu.A. Litvinov1, M. Matos1, G. Münzenberg1,5, F. Nolden1, Yu.N. Novikov6, T. Ohtsubo7, W. Plass4, M. Portillo1, V. Shishkin1, J. Stadlmann1, M. Steck1, K. Takahashi8, H. Weick1, and M. Winkler1 — 1GSI Darmstadt — 2TU München — 3Saitama University — 4JLU Giessen — 5JGU Mainz — 6PNPI St Peterburg — 7Niigata University — 8MPIK Heidelberg
For the understanding of the nucleosynthesis in stars, radioactive decays play an important role. However in the stellar medium the extreme temperatures and pressures lead to the stripping of most of the electrons from the atoms, which can lead to a dramatic change in their β-decay probabilities. In particular in highly-ionized atoms the bound-β− channel opens up .
Half-life measurements of fully-ionized 207Tl81+ were performed with time-resolved Schottky Mass Spectrometry (SMS) at the FRS-ESR facility in GSI. The acceptance of the Experimental Storage Ring (ESR) allowed to observe both the continuum-β− decay (to 207Pb82+) and bound-β− decay (to 207Pb81+) of this nuclide, and consequently to evaluate the partial half-lives and the branching ratios. The isomeric state of fully-ionized 207Tl (T1/2 = 1.33 s for the neutral atom) and its decay to the ground state could be also observed. The experimental results will be discussed and compared with theoretical predictions.