Total Absorption Spectroscopy of Ground and Isomeric States in <sup>70</sup>Cu

ORAL

Abstract

One of the underlying assumptions in astrophysical reaction rate calculations is the generalized Brink-Axel (gBA) hypothesis, which states that the γ-ray strength function (γSF) is independent of the initial excitation energy and spin of nuclear states in the compound nucleus. While the initial excitation energy independence of the gBA has been previously studied, the spin-independence remains untested. Here, we test the spin-independence of the gBA by investigating the β-decay of 70Cu, which offers a unique opportunity to study the γSF over different spin ranges at similar excitation energies in the daughter nucleus. 70Cu has three β-decaying spin-parity states (6ground state, and two isomeric states: 3, and 1+). In an experiment performed at the National Superconducting Cyclotron Laboratory 70Cu was produced, isolated by the Low-Energy Beam and Ion Trap (LEBIT), and then delivered to the Summing NaI (SuN) Total Absorption Spectrometer. Preliminary results from total absorption spectroscopy following the β-decay of each of the three β-decaying spin-parity states will be presented. The data will be used in future β-Oslo analysis to obtain γSF and nuclear level densities and test the spin-independence of the gBA hypothesis.

*This work is supported by the US Department of Energy National Nuclear Security Administration through Grant No. DOE-DE-NA0003906

Presenters

  • Eleanor Ronning

    • Facility for Rare Isotope Beams
    • Michigan State University

Authors

  • Eleanor Ronning

    • Facility for Rare Isotope Beams
    • Michigan State University

  • Andrea L Richard

    • Lawrence Livermore National Laboratory
    • NSCL Michigan State University
    • Lawrence Livermore National Lab

  • Sean N Liddick

    • Facility for Rare Isotope Beams
    • Michigan State University
    • NSCL Michigan State University
    • Michigan State University (MSU)
    • FRIB
    • Facility for Rare Isotope Beams, Michigan State University

  • Artemis Spyrou

    • Michigan State University

  • Ryan Ringle

    • FRIB
    • Facility for Rare Isotope Beams
    • Michigan State University
    • National Superconducting Cyclotron Laboratory

  • Isaac T Yandow

    • Michigan State University

  • Aaron Chester

    • Michigan State University
    • Simon Fraser University

  • Katherine L Childers

    • Michigan State University
    • Texas A&M University

  • Paul A Deyoung

    • Hope College

  • Jordan J Owens-Fryar

    • Facility for Rare Isotope Beams
    • Michigan State University

  • Alec S Hamaker

    • Michigan State University

  • Caley Harris

    • Michigan State University
    • Michigan State University (MSU)
    • FRIB

  • Rebecca Lewis

    • Michigan State University
    • Zeno Power

  • Kasey R Lund

    • National Superconducting Cyclotron Laboratory, MSU

  • Stephanie M Lyons

    • Pacific Northwest National Laboratory
    • Michigan State University
    • NSCL Michigan State University
    • Pacific Northwest National Lab
    • Pacific Northwestern National Laboratory
    • FRIB

  • Alicia R Palmisano

    • Michigan State University

  • Daniel Puentes

    • Michigan State University

  • Rachel Sandler

    • Central Michigan Univ

  • Chandana Sumithrarachchi

    • FRIB
    • NSCL Michigan State University
    • Michigan State University
    • FRIB/NSCL
    • National Superconducting Cyclotron Laboratory

  • Mathis Wiedeking

    • iThemba LABS

  • Yongchi Xiao

    • University of Kentucky
    • Michigan State University
    • Mississippi State University