Physics Letters B (Apr 2023)

Studying Gamow-Teller transitions and the assignment of isomeric and ground states at N = 50

  • Ali Mollaebrahimi,
  • Christine Hornung,
  • Timo Dickel,
  • Daler Amanbayev,
  • Gabriella Kripko-Koncz,
  • Wolfgang R. Plaß,
  • Samuel Ayet San Andrés,
  • Sönke Beck,
  • Andrey Blazhev,
  • Julian Bergmann,
  • Hans Geissel,
  • Magdalena Górska,
  • Hubert Grawe,
  • Florian Greiner,
  • Emma Haettner,
  • Nasser Kalantar-Nayestanaki,
  • Ivan Miskun,
  • Frédéric Nowacki,
  • Christoph Scheidenberger,
  • Soumya Bagchi,
  • Dimiter L. Balabanski,
  • Ziga Brencic,
  • Olga Charviakova,
  • Paul Constantin,
  • Masoumeh Dehghan,
  • Jens Ebert,
  • Lizzy Gröf,
  • Oscar Hall,
  • Muhsin N. Harakeh,
  • Satbir Kaur,
  • Anu Kankainen,
  • Ronja Knöbel,
  • Daria A. Kostyleva,
  • Natalia Kurkova,
  • Natalia Kuzminchuk,
  • Israel Mardor,
  • Dragos Nichita,
  • Jan-Hendrik Otto,
  • Zygmunt Patyk,
  • Stephane Pietri,
  • Sivaji Purushothaman,
  • Moritz Pascal Reiter,
  • Ann-Kathrin Rink,
  • Heidi Roesch,
  • Anamaria Spătaru,
  • Goran Stanic,
  • Alexandru State,
  • Yoshiki K. Tanaka,
  • Matjaz Vencelj,
  • Helmut Weick,
  • John S. Winfield,
  • Michael I. Yavor,
  • Jianwei Zhao

Journal volume & issue
Vol. 839
p. 137833

Abstract

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Direct mass measurements of neutron-deficient nuclides around the N=50 shell closure below 100Sn were performed at the FRS Ion Catcher (FRS-IC) at GSI, Germany. The nuclei were produced by projectile fragmentation of 124Xe, separated in the fragment separator FRS and delivered to the FRS-IC. The masses of 14 ground states and two isomers were measured with relative mass uncertainties down to 1×10−7 using the multiple-reflection time-of-flight mass spectrometer of the FRS-IC, including the first direct mass measurements of 98Cd and 97Rh. A new QEC=5437±67 keV was obtained for 98Cd, resulting in a summed Gamow-Teller (GT) strength for the five observed transitions (0+⟶1+) as B(GT)=2.94−0.28+0.32. Investigation of this result in state-of-the-art shell model approaches accounting for the first time experimentally observed spectrum of GT transitions points to a perfect agreement for N=50 isotones. The excitation energy of the long-lived isomeric state in 94Rh was determined for the first time to be 293±21 keV. This, together with the shell model calculations, allows the level ordering in 94Rh to be understood.

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