Tin-100, a doubly magic nucleus

Blick auf das Experiment am GSI entgegen der Strahlrichtung. Im Zentrum des „Igels“ aus 105 mit flüssigem Stickstoff gekühlten Gamma-Detektoren werden die Fragmente gestoppt und mit 25 großen Teilchendetektoren wird der Zeitpunkt und die frei werdende Energie beim Beta-Zerfall vermessen. Bild: Thomas Faestermann / TUM

A view of the experiment at the GSI from a perspective against the beam direction. The fragments are stopped at the center of a “hedgehog” of 105 liquid nitrogen-cooled gamma ray detectors, where the precise time point of the beta decay and the released decay energy are measured. Picture: Thomas Faestermann / TUM

An international collaboration, led by a group from the institute E12 of our Physik-Department, has succeeded to determine the half-live and beta-decay energy of tin-100 in an experiment at the GSI Helmholtzzentrum für Schwerionenforschung. From these results follows that tin-100 has the largest beta-decay strength of all atomic nuclei. Tin-100 is of particular interest, since it has, with 50 protons and 50 neutrons, completely filled shells, and is therefore called a ‘doubly magic’ nucleus.

Further information:

press release TUM
press release GSI
Nature News and Views

			Publication:

			Superallowed Gamow–Teller decay of the doubly magic nucleus 100Sn

			C. B. Hinke et al., Nature, 486, 341–345 (21 June 2012) doi:10.1038/nature11116

			Contact: 

			Dr. Thomas Faestermann

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