Solar cycle variation of max in helioseismic data and its implications for asteroseismology

Abstract

The frequency, max, at which the envelope of pulsation power peaks for solar-like oscillators is an important quantity in asteroseismology. We measure max for the Sun using 25 years of Sun-as-a-Star Doppler velocity observations with the Birmingham Solar-Oscillations Network (BiSON), by fitting a simple model to binned power spectra of the data. We also apply the fit to Sun-as-a-Star Doppler velocity data from GONG and GOLF, and photometry data from VIRGO/SPM on the ESA/NASA SOHO spacecraft. We discover a weak but nevertheless significant positive correlation of the solar max with solar activity. The uncovered shift between low and high activity, of 25\, μ Hz, translates to an uncertainty of 0.8 per cent in radius and 2.4 per cent in mass, based on direct use of asteroseismic scaling relations calibrated to the Sun. The mean max in the different datasets is also clearly offset in frequency. Our results flag the need for caution when using max in asteroseismology.