We study the impact of new metallicity measurements, from solar wind data, on the solar model. The "solar modeling problem" refers to the persisting discrepancy between helioseismological observations and predictions of solar models computed implementing state-of-the-art photospheric abundances. We critically reassess the problem, in particular considering the new set of abundances of von Steiger & Zurbuchen, determined through the in situ collection of solar wind samples from polar coronal holes. This new set of abundances indicates a solar metallicity Z⊙ >= 0.0196 +/- 0.0014, significantly higher than the currently established value. The new values hint at an abundance of volatile elements (i.e., C, N, O, Ne) close to previous results of Grevesse and Sauval, whereas the abundance of refractory elements (i.e., Mg, Si, S, Fe) is considerably increased. Using the Linear Solar Model formalism, we determine the variation of helioseismological observables in response to the changes in elemental abundances, in order to explore the consistency of these new measurements with constraints from helioseismology. We find that for observables that are particularly sensitive to the abundance of volatile elements, in particular the radius of the convective zone boundary (CZB) and the sound speed around the radius of CZB, improved agreement over previous models is obtained. Conversely, the high abundance of refractories correlates with a higher core temperature, resulting in an overproduction of neutrinos and a huge increase in the surface helium abundance. We conclude that the "solar modeling problem" remains unsolved.

Solar Models in Light of New High Metallicity Measurements from Solar Wind Data / Vagnozzi, Sunny; Freese, Katherine; Zurbuchen, Thomas H.. - In: THE ASTROPHYSICAL JOURNAL. - ISSN 0004-637X. - 839:1(2017), p. 55. [10.3847/1538-4357/aa6931]

Solar Models in Light of New High Metallicity Measurements from Solar Wind Data

Sunny Vagnozzi;
2017-01-01

Abstract

We study the impact of new metallicity measurements, from solar wind data, on the solar model. The "solar modeling problem" refers to the persisting discrepancy between helioseismological observations and predictions of solar models computed implementing state-of-the-art photospheric abundances. We critically reassess the problem, in particular considering the new set of abundances of von Steiger & Zurbuchen, determined through the in situ collection of solar wind samples from polar coronal holes. This new set of abundances indicates a solar metallicity Z⊙ >= 0.0196 +/- 0.0014, significantly higher than the currently established value. The new values hint at an abundance of volatile elements (i.e., C, N, O, Ne) close to previous results of Grevesse and Sauval, whereas the abundance of refractory elements (i.e., Mg, Si, S, Fe) is considerably increased. Using the Linear Solar Model formalism, we determine the variation of helioseismological observables in response to the changes in elemental abundances, in order to explore the consistency of these new measurements with constraints from helioseismology. We find that for observables that are particularly sensitive to the abundance of volatile elements, in particular the radius of the convective zone boundary (CZB) and the sound speed around the radius of CZB, improved agreement over previous models is obtained. Conversely, the high abundance of refractories correlates with a higher core temperature, resulting in an overproduction of neutrinos and a huge increase in the surface helium abundance. We conclude that the "solar modeling problem" remains unsolved.
2017
1
Vagnozzi, Sunny; Freese, Katherine; Zurbuchen, Thomas H.
Solar Models in Light of New High Metallicity Measurements from Solar Wind Data / Vagnozzi, Sunny; Freese, Katherine; Zurbuchen, Thomas H.. - In: THE ASTROPHYSICAL JOURNAL. - ISSN 0004-637X. - 839:1(2017), p. 55. [10.3847/1538-4357/aa6931]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/360088
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