Is the solar spectrum latitude dependent? An investigation with SST/TRIPPEL

TL;DR

This study investigates whether the solar spectrum varies with latitude by analyzing spectral lines at different solar disk positions, finding minimal variation and suggesting latitude effects are unlikely to explain observed abundance differences.

Contribution

The paper provides the first high-precision measurement of spectral line variations across solar latitudes at a fixed heliocentric angle, challenging previous hypotheses about latitude-dependent spectral effects.

Findings

Less than 1.5% variation in equivalent widths across latitudes

Estimated abundance difference within 0.005 dex

Latitude effects unlikely to explain solar-twin abundance discrepancies

Abstract

Context: In studies of the solar spectrum relative to spectra of solar twin stars, it has been found that the chemical composition of the Sun seems to depart systematically from those of the twins. One possible explanation is that the effect is due to the special aspect angle of the Sun when observed from Earth, as compared with the aspect angles of the twins. Thus, a latitude dependence of the solar spectrum, even with the heliocentric angle constant, could lead to effects of the type observed. Aim: We explore a possible variation in the strength of certain spectral lines, used in the comparisons between the composition of the Sun and the twins, at loci on the solar disk with different latitudes but at constant heliocentric angle. Methods: We use the TRIPPEL spectrograph at the Swedish 1-m Solar Telescope on La Palma to record spectra in five spectral regions in order to compare different locations on the solar disk at a heliocentric angle of 45 deg. Equivalent widths and other parameters are measured for fifteen different lines representing nine atomic species. Results: The relative variations in equivalent widths at the equator and at solar latitude 45 deg are found to be less than 1.5 % for all spectral lines studied. Translated to elemental abundances as they would be measured from a terrestrial and a hypothetical pole-on observer, the difference is estimated to be within 0.005 dex in all cases. Conclusion: It is very unlikely that latitude effects could cause the reported abundance difference between the Sun and the solar twins. The accuracy obtainable in measurements of small differences in spectral line strengths between different solar disk positions is very high.