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Enhanced production of 60Fe in massive stars

Author

Listed:
  • A. Spyrou

    (Michigan State University
    Michigan State University)

  • D. Richman

    (Michigan State University
    Michigan State University)

  • A. Couture

    (Los Alamos National Laboratory)

  • C. E. Fields

    (Los Alamos National Laboratory
    University of Arizona)

  • S. N. Liddick

    (Michigan State University
    Michigan State University)

  • K. Childers

    (Michigan State University
    Michigan State University)

  • B. P. Crider

    (Michigan State University
    Mississippi State University)

  • P. A. DeYoung

    (Hope College)

  • A. C. Dombos

    (Michigan State University
    Michigan State University)

  • P. Gastis

    (Los Alamos National Laboratory
    Central Michigan University)

  • M. Guttormsen

    (University of Oslo)

  • K. Hermansen

    (Michigan State University
    Michigan State University)

  • A. C. Larsen

    (University of Oslo)

  • R. Lewis

    (Michigan State University
    Michigan State University)

  • S. Lyons

    (Michigan State University
    Pacific Northwest National Laboratory)

  • J. E. Midtbø

    (University of Oslo)

  • S. Mosby

    (Los Alamos National Laboratory)

  • D. Muecher

    (Institut für Kernphysik der Universität zu Köln)

  • F. Naqvi

    (Michigan State University
    Texas A&M University)

  • A. Palmisano-Kyle

    (Michigan State University
    Michigan State University
    University of Tennessee)

  • G. Perdikakis

    (Central Michigan University)

  • C. Prokop

    (Michigan State University
    Los Alamos National Laboratory)

  • H. Schatz

    (Michigan State University
    Michigan State University)

  • M. K. Smith

    (Michigan State University)

  • C. Sumithrarachchi

    (Michigan State University)

  • A. Sweet

    (Lawrence Livermore National Laboratory)

Abstract

Massive stars are a major source of chemical elements in the cosmos, ejecting freshly produced nuclei through winds and core-collapse supernova explosions into the interstellar medium. Among the material ejected, long-lived radioisotopes, such as 60Fe (iron) and 26Al (aluminum), offer unique signs of active nucleosynthesis in our galaxy. There is a long-standing discrepancy between the observed 60Fe/26Al ratio by γ-ray telescopes and predictions from supernova models. This discrepancy has been attributed to uncertainties in the nuclear reaction networks producing 60Fe, and one reaction in particular, the neutron-capture on 59Fe. Here we present experimental results that provide a strong constraint on this reaction. We use these results to show that the production of 60Fe in massive stars is higher than previously thought, further increasing the discrepancy between observed and predicted 60Fe/26Al ratios. The persisting discrepancy can therefore not be attributed to nuclear uncertainties, and points to issues in massive-star models.

Suggested Citation

  • A. Spyrou & D. Richman & A. Couture & C. E. Fields & S. N. Liddick & K. Childers & B. P. Crider & P. A. DeYoung & A. C. Dombos & P. Gastis & M. Guttormsen & K. Hermansen & A. C. Larsen & R. Lewis & S., 2024. "Enhanced production of 60Fe in massive stars," Nature Communications, Nature, vol. 15(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-54040-4
    DOI: 10.1038/s41467-024-54040-4
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    References listed on IDEAS

    as
    1. Roland Diehl & Hubert Halloin & Karsten Kretschmer & Giselher G. Lichti & Volker Schönfelder & Andrew W. Strong & Andreas von Kienlin & Wei Wang & Pierre Jean & Jürgen Knödlseder & Jean-Pierre Roques , 2006. "Radioactive 26Al from massive stars in the Galaxy," Nature, Nature, vol. 439(7072), pages 45-47, January.
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