Abstract
The time-variable velocity fields of solar-type stars limit the
precision of radial-velocity determinations of their planets' masses,
obstructing detection of Earth twins. Since 2015 July we have been
monitoring disc-integrated sunlight in daytime using a purpose-built
solar telescope and fibre feed to the HARPS-N stellar radial-velocity
spectrometer. We present and analyse the solar radial-velocity
measurements and cross-correlation function (CCF) parameters obtained in
the first 3 years of observation, interpreting them in the context of
spatially-resolved solar observations. We describe a Bayesian
mixture-model approach to automated data-quality monitoring. We provide
dynamical and daily differential-extinction corrections to place the
radial velocities in the heliocentric reference frame, and the CCF shape
parameters in the sidereal frame. We achieve a photon-noise limited
radial-velocity precision better than 0.43 m s-1 per 5-minute
observation. The day-to-day precision is limited by zero-point
calibration uncertainty with an RMS scatter of about 0.4 m
s-1. We find significant signals from granulation and solar
activity. Within a day, granulation noise dominates, with an amplitude
of about 0.4 m s-1 and an autocorrelation half-life of 15
minutes. On longer timescales, activity dominates. Sunspot groups
broaden the CCF as they cross the solar disc. Facular regions
temporarily reduce the intrinsic asymmetry of the CCF. The
radial-velocity increase that accompanies an active-region passage has a
typical amplitude of 5 m s-1 and is correlated with the line
asymmetry, but leads it by 3 days. Spectral line-shape variability thus
shows promise as a proxy for recovering the true radial velocity.
Original language | English |
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Journal | Monthly Notices of the Royal Astronomical Society, Advance Access |
DOIs | |
Publication status | Published - 01 May 2019 |
Externally published | Yes |
Keywords
- techniques: radial velocities
- Sun: activity
- Sun: faculae
- plages
- Sun:granulation
- sunspots
- planets and satellites: detection
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Dive into the research topics of 'Three years of Sun-as-a-star radial-velocity observations on the approach to solar minimum.'. Together they form a unique fingerprint.Student theses
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Understand thy star, understand thy planet
Costes, J. (Author), Watson, C. (Supervisor) & de Mooij, E. (Supervisor), Dec 2021Student thesis: Doctoral Thesis › Doctor of Philosophy
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