Total absorption spectroscopy of the β decay of Zr 101,102 and Tc 109

A. C. Dombos, A. Spyrou, F. Naqvi, S. J. Quinn, S. N. Liddick, A. Algora, T. Baumann, J. Brett, B. P. Crider, P. A. Deyoung, T. Ginter, J. Gombas, S. Lyons, T. Marketin, P. Möller, W. J. Ong, A. Palmisano, J. Pereira, C. J. Prokop, P. SarrigurenD. P. Scriven, A. Simon, M. K. Smith, S. Valenta

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8 Scopus citations

Abstract

The β decay of Zr101,102 and Tc109 was studied using the technique of total absorption spectroscopy. The experiment was performed at the National Superconducting Cyclotron Laboratory using the Summing NaI(Tl) (SuN) detector in the first-ever application of total absorption spectroscopy with a fast beam produced via projectile fragmentation. The β-decay feeding intensity and Gamow-Teller transition strength distributions were extracted for these three decays. The extracted distributions were compared to three different quasiparticle random-phase approximation (QRPA) models based on different mean-field potentials. A comparison with calculations from one of the QRPA models was performed to learn about the ground-state shape of the parent nucleus. For Zr101 and Zr102, calculations assuming a pure shape configuration (oblate or prolate) were not able to reproduce the extracted distributions. These results may indicate that some type of mixture between oblate and prolate shapes is necessary to reproduce the extracted distributions. For Tc109, a comparison of the extracted distributions with QRPA calculations suggests a dominant oblate configuration. The other two QRPA models are commonly used to provide β-decay properties in r-process network calculations. This work shows the importance of making comparisons between the experimental and theoretical β-decay distributions, rather than just half-lives and β-delayed neutron emission probabilities, as close to the r-process path as possible.

Original languageEnglish
Article number025810
JournalPhysical Review C
Volume103
Issue number2
DOIs
StatePublished - 1 Feb 2021
Externally publishedYes

ASJC Scopus subject areas

  • Nuclear and High Energy Physics

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