Abstract
In light of the growing interest in searching for low mass, rocky planets, we investigate the
impact of starspots on radial velocity searches for earth-mass planets in orbit about M dwarf
stars. Since new surveys targeting M dwarfs will likely be carried out at infrared wavelengths,
a comparison between V and Y band starspot-induced jitter is made, indicating a reduction
of up to an order of magnitude when observing in the Y band. The exact reduction in jitter
is dependent on the photosphere to spot contrast ratio, with greater improvements at smaller
contrasts.
We extrapolate a model used to describe solar spot distributions to simulate the spot patterns
that we expect to find on M dwarfs. Under the assumption that M dwarfs are near or fully
convective, we randomly place starspots on the stellar surface, simulating different levels of
spot coverage. Line profiles distorted by spots are derived and are used to investigate the
starspot-induced jitter. By making assumptions about the degree of spot activity, detection
limits for earth-mass planets in habitable zones are simulated for between 10 and 500 observation
epochs. We find that ≤50 epochs are required to detect 1–2M⊕ planets (with
Original language | English |
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Pages (from-to) | 1599-1610 |
Number of pages | 12 |
Journal | Monthly Notices of the Royal Astronomical Society |
Volume | 412 |
Issue number | 3 |
DOIs | |
Publication status | Published - 2011 |