I present an empirical model for predicting a star's radial velocity jitter from its B-V color, activity level, and absolute magnitude. This model is based on observations of 450 well- observed stars from Keck Observatory for the California and Carnegie Planet Search Program. The model includes noise from both astrophysical sources and systematic errors, and describes jitter as generally increasing with a star's activity and height above the main sequence
Context. Stars show various amounts of radial-velocity (RV) jitter due to varying stellar activity l...
Context. Characterizing the relation between stellar photometric variability and radial velocity (RV...
Context. Chromospheric activity produces both photometric and spectroscopic variations that can be m...
International audienceDark spots on the surface of active stars produce changes in the shapes of the...
Context. The abilities of radial velocity exoplanet surveys to detect the lowest-mass extr...
International audienceAnalytical relations are derived for the amplitude of astrometric, photometric...
Artículo de publicación ISIContext. The abilities of radial velocity exoplanet surveys to detect the...
The radial velocity technique is commonly used to classify transiting exoplanet candidates. However,...
International audienceContext. The effect of stellar activity on radial velocity (RV) measurements a...
One of the best ways to improve our understanding of the stellar activity-induced signal in radial v...
Radial velocity (RV) detection of planets is hampered by astrophysical processes on the surfaces of ...
The Radial Velocity (RV) method, measuring the Doppler Shifts from stellar spectra, is widely used f...
International audienceOne of the best ways to improve our understanding of the stellar activity‐indu...
Stellar activity represents a serious limitation to exoplanet radial velocity (RV) searches. In fact...
Context. The effect of stellar activity on radial velocity (RV) measurements appears to be a limitin...
Context. Stars show various amounts of radial-velocity (RV) jitter due to varying stellar activity l...
Context. Characterizing the relation between stellar photometric variability and radial velocity (RV...
Context. Chromospheric activity produces both photometric and spectroscopic variations that can be m...
International audienceDark spots on the surface of active stars produce changes in the shapes of the...
Context. The abilities of radial velocity exoplanet surveys to detect the lowest-mass extr...
International audienceAnalytical relations are derived for the amplitude of astrometric, photometric...
Artículo de publicación ISIContext. The abilities of radial velocity exoplanet surveys to detect the...
The radial velocity technique is commonly used to classify transiting exoplanet candidates. However,...
International audienceContext. The effect of stellar activity on radial velocity (RV) measurements a...
One of the best ways to improve our understanding of the stellar activity-induced signal in radial v...
Radial velocity (RV) detection of planets is hampered by astrophysical processes on the surfaces of ...
The Radial Velocity (RV) method, measuring the Doppler Shifts from stellar spectra, is widely used f...
International audienceOne of the best ways to improve our understanding of the stellar activity‐indu...
Stellar activity represents a serious limitation to exoplanet radial velocity (RV) searches. In fact...
Context. The effect of stellar activity on radial velocity (RV) measurements appears to be a limitin...
Context. Stars show various amounts of radial-velocity (RV) jitter due to varying stellar activity l...
Context. Characterizing the relation between stellar photometric variability and radial velocity (RV...
Context. Chromospheric activity produces both photometric and spectroscopic variations that can be m...