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HK: Physik der Hadronen und Kerne
HK 5: Kernphysik/Spektroskopie I - Exotische Kerne
HK 5.2: Vortrag
Montag, 19. März 2001, 17:00–17:15, D
Decay Spectroscopy of 102Sn — •A. Stolz1, T. Faestermann1, M. Münch1, R. Schneider1, K. Sümmerer2, E. Wefers1, J. Friese1, H. Geissel2, M. Hellström3, P. Kienle1, H.-J. Körner1, G. Münzenberg2, C. Schlegel2, P. Thirolf4, and H. Weick2 — 1TU München — 2GSI Darmstadt — 3Universität Lund, Schweden — 4LMU München
Neutron deficient nuclei near 100Sn have been produced by fragmentation of a 1 A·GeV 112Sn beam in a Be target. The fragments were separated in the 0∘ magnetic spectrometer FRS at GSI. The unambiguously identified ions were stopped in an implantation detector consisting of four double-sided Si-strip detectors. By correlating the implantation position with the decay position we were able to suppress the background effectively. Around the implantation zone two 1 cm thick stacks of Si detectors were mounted for beta energy measurements. The Si detector was surrounded by a segmented NaI detector and a Ge Clover detector. The aim of the experiment was to determine the Gamow-Teller strength in the decay of 100Sn and neighbouring nuclei. During a 50 hrs run one 100Sn was obtained resulting in a production cross section of 1.8−1.3+3.2 pb. The decay data of this event together with 7 events observed in 1994 by our group [1] will give a hint to the decay scheme of this nucleus. For determining the GT strength, we collected β- and γ-data of 98Cd, where the Q-value is unknown, and 102Sn, where even the decay branching and the Q-value are not known. Next to 100Sn these nuclei are the best candidates to address the problem of missing GT strength.
[1] R. Schneider et al., Z. Phys. A348 (1994)