3/20/2024 0 Comments Neutrino plus old version![]() ![]() As an output of the study we derive the corresponding data-driven predictions for the solar neutrino fluxes. In addition, we find that the values of most of the other inputs of the SSMs required to better describe the helioseismic and neutrino data are in good agreement with those adopted as the standard priors, with the exception of the astrophysical factor S 11 and the microscopic diffusion rates, for which data suggests a 1 per cent and 30 per cent reduction, respectively. When systematic uncertainties are included, results are 7.5 per cent and 2 per cent, respectively. In particular, we are able to reconstruct the solar opacity profile in a data-driven fashion, independently of any reference opacity tables, obtaining a 4 per cent uncertainty at the base of the convective envelope and 0.8 per cent at the solar core. Furthermore, starting from a composition unbiased set of standard solar models (SSMs) we are able to statistically select those with solar chemical composition and other solar inputs which better describe the helioseismic and neutrino observations. With these tools we first readdress the statistical significance of the solar composition problem. ![]() In particular, we use a Gaussian process to model the functional shape of the opacity uncertainty to gain flexibility and become as free as possible from prejudice in this regard. In this work, we use Bayesian inference to quantitatively reconstruct the solar properties most relevant to the solar composition problem using as inputs the information provided by helioseismic and solar neutrino data.
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