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Helioseismic inference of the solar radiative opacity

Author

Listed:
  • Gaël Buldgen

    (STAR Institute, Université de Liège
    Université de Genève)

  • Jean-Christophe Pain

    (DIF
    LMCE)

  • Philippe Cossé

    (DIF
    LMCE)

  • Christophe Blancard

    (DIF
    LMCE)

  • Franck Gilleron

    (DIF
    LMCE)

  • Anil K. Pradhan

    (Dept. Astronomy)

  • Christopher J. Fontes

    (Los Alamos National Laboratory)

  • James Colgan

    (Los Alamos National Laboratory)

  • Arlette Noels

    (Université de Genève)

  • Jørgen Christensen-Dalsgaard

    (Aarhus University)

  • Morgan Deal

    (Université de Montpellier, CNRS, Place Eugène Bataillon
    Universidade do Porto, CAUP)

  • Sergey V. Ayukov

    (Lomonosov Moscow State University)

  • Vladimir A. Baturin

    (Lomonosov Moscow State University)

  • Anna V. Oreshina

    (Lomonosov Moscow State University)

  • Richard Scuflaire

    (STAR Institute, Université de Liège)

  • Charly Pinçon

    (CNRS)

  • Yveline Lebreton

    (Sorbonne Université, Université Paris Cité
    IPR (Institut de Physique de Rennes) - UMR 6251)

  • Thierry Corbard

    (Laboratoire Lagrange)

  • Patrick Eggenberger

    (Université de Genève)

  • Peter Hakel

    (Los Alamos National Laboratory)

  • David P. Kilcrease

    (Los Alamos National Laboratory)

Abstract

The Sun is the most studied of all stars, and thus constitutes a benchmark for stellar models. However, our vision of the Sun is still incomplete, as illustrated by the current debate on its chemical composition. The problem reaches far beyond chemical abundances and is intimately linked to microscopic and macroscopic physical ingredients of solar models such as radiative opacity, for which experimental results have been recently measured that still await theoretical explanations. We present opacity profiles derived from helioseismic inferences and compare them with detailed theoretical computations of individual element contributions using three different opacity computation codes, in a complementary way to experimental results. We find that our seismic opacity is about 10% higher than theoretical values used in current solar models around 2 million degrees, but lower by 35% than some recent available theoretical values. Using the Sun as a laboratory of fundamental physics, we show that quantitative comparisons between various opacity tables are required to understand the origin of the discrepancies between reported helioseismic, theoretical and experimental opacity values.

Suggested Citation

  • Gaël Buldgen & Jean-Christophe Pain & Philippe Cossé & Christophe Blancard & Franck Gilleron & Anil K. Pradhan & Christopher J. Fontes & James Colgan & Arlette Noels & Jørgen Christensen-Dalsgaard & M, 2025. "Helioseismic inference of the solar radiative opacity," Nature Communications, Nature, vol. 16(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-024-54793-y
    DOI: 10.1038/s41467-024-54793-y
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