New Methods for Finding Activity-sensitive Spectral Lines: Combined Visual Identification and an Automated Pipeline Find a Set of 40 Activity Indicators

Starspots, plages, and activity cycles cause radial velocity variations that can either mimic planets or hide their existence. To verify the authenticity of newly discovered planets, observers may search for periodicity in spectroscopic activity indices such as Ca H & K and H , then mask out any...

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Published inThe Astronomical journal Vol. 156; no. 4; pp. 180 - 190
Main Authors Wise, A. W., Dodson-Robinson, S. E., Bevenour, K., Provini, A.
Format Journal Article
LanguageEnglish
Published Madison The American Astronomical Society 01.10.2018
IOP Publishing
Subjects
Astronomy
Benchmarks
Calibration
Correlation analysis
Fluxes
Identification methods
Indicators
Line spectra
line: profiles
Low mass stars
Periodic variations
Planet detection
Planets
planets and satellites: detection
Radial velocity
Searching
Spectrographs
stars: activity
stars: chromospheres
stars: variables: general
Starspots
Stellar activity
Stellar rotation
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Summary:Starspots, plages, and activity cycles cause radial velocity variations that can either mimic planets or hide their existence. To verify the authenticity of newly discovered planets, observers may search for periodicity in spectroscopic activity indices such as Ca H & K and H , then mask out any Doppler signals that match the activity period or its harmonics. However, not every spectrograph includes Ca H & K, and redder activity indicators are needed for planet searches around low-mass stars. Here, we show how new activity indicators can be identified by correlating spectral line depths with a well-known activity index. We apply our correlation methods to archival HARPS spectra of ϵ Eri and Cen B and use the results from both stars to generate a master list of activity-sensitive lines whose core fluxes are periodic at the star's rotation period. Our newly discovered activity indicators can in turn be used as benchmarks to extend the list of known activity-sensitive lines toward the infrared or UV. With recent improvements in spectrograph illumination stabilization, wavelength calibration, and telluric correction, stellar activity is now the biggest noise source in planet searches. Our suite of >40 activity-sensitive lines is a first step toward allowing planet hunters to access all the information about spots, plages, and activity cycles contained in each spectrum.
Bibliography:AAS12045
The Solar System, Exoplanets, and Astrobiology
ISSN:0004-6256
1538-3881
DOI:10.3847/1538-3881/aadd94