# Anticipating the Sun's heavy-element abundance

**Authors:** Douglas Gough

arXiv: 1904.00301 · 2019-04-10

## TL;DR

This paper discusses how future measurements of solar neutrinos from the CNO cycle could precisely determine the Sun's core heavy-element abundance, potentially resolving the longstanding solar abundance problem.

## Contribution

It establishes a robust relation between the CNO neutrino flux and the Sun's core heavy-element abundance, aiding in resolving the solar abundance discrepancy.

## Key findings

- Derived the relation $Z_{c}= 0.400 	imes \
- Proposed neutrino flux measurements as a method to determine solar core composition.
- Addressed the solar abundance problem by linking neutrino data to chemical composition.

## Abstract

Much of our understanding of the internal structure of the Sun derives from so-called standard theoretical solar models. Unfortunately, none of those models agrees completely with observation. The discrepancy is commonly associated with chemical abundance, and has led to what is now called the solar abundance problem, the resolution of which has previously been out of sight. But now the Borexino Collaboration, who recently announced measurements of the pp-chain solar neutrinos, are optimistic that %in future they will be able to measure the flux $\Phi_{\rm CNO}$ of the neutrinos emitted by the relatively weak CNO cycle. Since C, N and O constitute the majority of the heavy elements, that measurement will permit a crucial determination of the heavy-element abundance $Z_{\rm c}$ in the Sun's energy-generating core, thereby shedding important light on the problem. To accomplish that determination, a robust relation between $Z_{\rm c}$ and $\Phi_{\rm CNO}$ will be required. That relation is $Z_{\rm c}= 0.400\, \Phi_{\rm CNO}$, where $\Phi_{\rm CNO}$ is in units of $10^{10} {\rm cm}^{-2}{\rm s}^{-1}$.

## Full text

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## References

19 references — full list in the complete paper: https://tomesphere.com/paper/1904.00301/full.md

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Source: https://tomesphere.com/paper/1904.00301