Evryscope-South Survey of Upper- and Pre-main Sequence Solar Neighborhood Stars

Using photometric data collected by Evryscope-South, we search for nearby young variable systems on the upper main sequence (UMS) and pre-main sequence (PMS). The Evryscopes are all-sky high-cadence telescope arrays operating in the Northern and Southern hemispheres. We base our search on a Gaia-sel...

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Bibliographic Details
Published in:Publications of the Astronomical Society of the Pacific 2020-11, Vol.132 (1017), p.1-17
Main Authors: Galliher, Nathan W., Ratzloff, Jeffrey K., Corbett, Hank, Law, Nicholas M., Howard, Ward S., Glazier, Amy L., Soto, Alan Vasquez, Gonzalez, Ramses
Format: Article
Language:English
Subjects:
Eclipsing binaries
Stars
Stars and Stellar Evolution
Surveys
Variable stars
Young stellar objects
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Summary:Using photometric data collected by Evryscope-South, we search for nearby young variable systems on the upper main sequence (UMS) and pre-main sequence (PMS). The Evryscopes are all-sky high-cadence telescope arrays operating in the Northern and Southern hemispheres. We base our search on a Gaia-selected catalog of young neighborhood upper- and pre-main sequence stars which were chosen through both astrometric and photometric criteria. We analyze 44,971 Evryscope-South light curves in search of variability. We recover 615 variables, with 378 previously known, and 237 new discoveries including 84 young eclipsing binaries (EB) candidates. We discover a new highly eccentric binary system and recover a further four previously known systems, with periods ranging from 299 to 674 hr. We find 158 long-period (>50 hr) candidate EB systems, 9 from the PMS and 149 from the UMS, which will allow constraints on the mass/radius/age relation. These long-period EBs include a 179.3 hr PMS system and a 867.8 hr system from the UMS. For PMS variable candidates we estimate system ages, which range from 1 to 23 Myr for non-EBs and from 2 to 17 Myr for EBs. Other non-EB discoveries that show intrinsic variability will allow relationships between stellar rotation rates, ages, activity, and mass to be characterized.
ISSN:0004-6280
1538-3873
1538-3873
DOI:10.1088/1538-3873/abb010