SIMBAD references

2019A&A...632A..81M - Astronomy and Astrophysics, volume 632A, 81-81 (2019/12-0)

Activity time series of old stars from late F to early K. IV. Limits of the correction of radial velocities using chromospheric emission.

MEUNIER N., LAGRANGE A.-M. and CUZACQ S.

Abstract (from CDS):


Context. Inhibition of the convective blueshift in active regions is a major contribution to the radial velocity (RV) variations, at least for solar-like stars. A common technique to correct for this component is to model the RV as a linear function of chromospheric emission, because both are strongly correlated with the coverage by plages.
Aims. This correction, although efficient, is not perfect: the aim of the present study is to understand the limits of this correction and to improve it.
Methods. We investigate these questions by analysing a large set of synthetic time series corresponding to old main sequence F6-K4 stars modelled using a consistent set of parameters. We focus here on the analysis of the correlation between time series, in particular between RV (variability due to different processes) and chromospheric emission on different timescales. We also study the temporal variation for each time series.
Results. We find that inclination strongly impacts these correlations, as well as the presence of additional signals (in particular granulation and supergranulation). Although RV and log R'HK are often well correlated, a combination of geometrical effects (butterfly diagrams related to dynamo processes and inclination) and activity level variations over time create an hysteresis pattern during the cycle, which produces a departure from an excellent correlation: for a given activity level, the RV is higher or lower during the ascending phase compared to the descending phase of the cycle depending on inclination, with a reversal for inclinations about 60° from pole-on. We find that this hysteresis is also observed for the Sun, as well as for other stars. This property is due to the spatio-temporal distribution of the activity pattern (and therefore to the dynamo processes) and to the difference in projection effects of the RV and chromospheric emission.
Conclusions. These results allow us to propose a new method which significantly improves the correction for long timescales (fraction of the cycle), and could be crucial to improving detection rates of planets in the habitable zone around F6-K4 stars.

Abstract Copyright: © N. Meunier et al. 2019

Journal keyword(s): stars: activity - stars: magnetic field - stars: solar-type - convection - techniques: radial velocities - Sun: granulation

Simbad objects: 11

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2021.07.27-13:51:10

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