Photospheric activity of the Sun with VIRGO and GOLF: Comparison with standard activity proxies

TL;DR

This study introduces new photospheric activity proxies derived from VIRGO and GOLF data, demonstrating their effectiveness in monitoring solar magnetic variability and comparing favorably with standard proxies over two solar cycles.

Contribution

The paper develops and validates new photospheric activity proxies, Sph and Svel, from space-based photometric and radial velocity data, enhancing solar activity monitoring methods.

Findings

Proxies effectively track 11-year solar cycle and quasi-biennial oscillation.

Magnetic interactions differ between Solar Cycles 23 and 24.

Wavelength dependence observed in the proxies' response functions.

Abstract

We study the variability of solar activity using new photospheric proxies originally developed for the analysis of stellar magnetism with the CoRoT and Kepler photometric observations. These proxies are obtained by tracking the temporal modulations in the observations associated to the spots and magnetic features as the Sun rotates. We analyze here 21 years, spanning solar cycles 23 and 24, of the observations collected by the space-based photometric VIRGO and radial velocity GOLF instruments on board the SoHO satellite. The photospheric activity proxy Sph is then calculated for each of the three VIRGO photometers as well as the associated Svel proxy from the radial velocity GOLF observations. Comparisons with several standard solar activity proxies sensitive to different layers of the Sun demonstrate that these new activity proxies, Sph and Svel, provide a new manner to monitor solar activity. We show that both the long- and short-term magnetic variabilities respectively associated to the 11-year cycle and the quasi-biennial oscillation are well monitored, and that the magnetic field interaction between the subsurface, the photosphere, and the chromosphere of the Sun, was modified between Cycle 24 and Cycle 23. Furthermore, the photometric proxies show a wavelength dependence of the response function of the solar photosphere among the three channels of the VIRGO photometers, providing inputs for the study of the stellar magnetism of Sun-like stars.