Detection of solar-like oscillations in the bright red giant stars γ Psc and θ1 Tau from a 190-day high-precision spectroscopic multisite campaign

Abstract

Red giants are evolved stars which exhibit solar-like oscillations. Although a multitude of stars have been observed with space telescopes, only a handful of red-giant stars were targets of spectroscopic asteroseismic observing projects. We search for solar-like oscillations in the two bright red-giant stars γ Psc and θ1 Tau from time series of ground-based spectroscopy and determine the frequency of the excess of oscillation power max and the mean large frequency separation for both stars. The radial velocities of γ Psc and θ1 Tau were monitored for 120 and 190 days, respectively. Nearly 9000 spectra were obtained. To reach the accurate radial velocities, we used simultaneous thorium-argon and iodine-cell calibration of our optical spectra. In addition to the spectroscopy, we acquired VLTI observations of γ Psc for an independent estimate of the radius. Also 22 days of observations of θ1 Tau with the MOST-satellite were analysed. The frequency analysis of the radial velocity data of γ Psc revealed an excess of oscillation power around 32 μHz and a large frequency separation of 4.10.1μHz. θ1 Tau exhibits oscillation power around 90 μHz, with a large frequency separation of 6.90.2μHz. Scaling relations indicate that γ Psc is a star of about 1 M and 10 R. θ1 Tau appears to be a massive star of about 2.7 M and 11 R. The radial velocities of both stars were found to be modulated on time scales much longer than the oscillation periods. While the mass of θ1 Tau is in agreement with results from dynamical parallaxes, we find a lower mass for γ Psc than what is given in the literature. The long periodic variability agrees with the expected time scales of rotational modulation.