MAGNETIC ACTIVITY-RELATED RADIAL-VELOCITY VARIATIONS IN COOL STARS - FIRST RESULTS FROM THE LICK EXTRASOLAR PLANET SURVEY

The discovery of the radial velocity (v(r)) signatures of planets arou nd several solar-like stars highlights the importance of exploring the sources of v(r). variations intrinsic to the stars themselves. We stu dy the stars in the Lick planetary survey for v(r) variations related to stellar activity: the rotation of starspots and convective inhomoge neities and their temporal evolution. We study the relationships betwe en the weighted v(r) dispersion, sigma(v)' (which has first been corre cted for the orbital contribution from known planets and the mean inte rnal error), and spectral type, rotation, and activity (as measured by Ca II H and K). We find that the largest sigma(v)' values occur among both the coolest (dMe) and the warmest (active F) stars. Values of si gma(v)' increase with H and K emission and scale proportional to v sin i in G and K stars and proportional to (v sin i)(1.3) in F stars. For a G star with zi sin i approximate to 8-10 km s(-1) (age similar to 0 .3 Gyr), for example, 20 m s(-1) less than or similar to sigma(v)' les s than or similar to 45 m s(-1), roughly consistent with the predicted sigma(v)' levels due to magnetic activity (Saar & Donahue). All the s tars with proposed planetary companions show sigma(v)' values typical for their spectral type, activity, and/or rotation. However, before th e planetary v(r) perturbations are removed, these stars show significa ntly enhanced sigma(v)' values. We develop a simple model that can pre dict the sigma(v)' expected for a given star (within approximate to 40 %) as a function of v sin i, spectral type, photometric variability, a nd macroturbulent velocity. The implications for extrasolar planet sea rches are discussed.