LIVING WITH A RED DWARF: ROTATION AND X-RAY AND ULTRAVIOLET PROPERTIES OF THE HALO POPULATION KAPTEYN’S STAR

As part of Villanova's Living with a Red Dwarf program, we have obtained UV, X-ray, and optical data of the Population II red dwarf-Kapteyn's Star. Kapteyn's Star is noteworthy for its large proper motions and high radial velocity of ~+245 km s super(-1). As the nearest Pop II red dwa...

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Veröffentlicht in:The Astrophysical journal 2016-04, Vol.821 (2), p.81-81
Hauptverfasser: Guinan, Edward F, Engle, Scott G, Durbin, Allyn
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Sprache:eng
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Zusammenfassung:As part of Villanova's Living with a Red Dwarf program, we have obtained UV, X-ray, and optical data of the Population II red dwarf-Kapteyn's Star. Kapteyn's Star is noteworthy for its large proper motions and high radial velocity of ~+245 km s super(-1). As the nearest Pop II red dwarf, it serves as an old age anchor for calibrating activity/irradiance-rotation-age relations, and an important test bed for stellar dynamos and the resulting X-ray-UV emissions of slowly rotating, near-fully convective red dwarf stars. Adding to the notoriety, Kapteyn's Star has recently been reported to host two super-Earth candidates, one of which (Kapteyn b) is orbiting within the habitable zone. However, Robertson et al. questioned the planet's existence since its orbital period may be an artifact of activity, related to the star's rotation period. Because of its large Doppler-shift, measures of the important, chromospheric H i Ly[alpha] 1215.67 A emission line can be reliably made, because it is mostly displaced from ISM and geo-coronal sources. Ly[alpha] emission dominates the FUV region of cool stars. Our measures can help determine the X-ray-UV effects on planets hosted by Kapteyn's Star, and planets hosted by other old red dwarfs. Stellar X-ray and Ly[alpha] emissions have strong influences on the heating and ionization of upper planetary atmospheres and can (with stellar winds and flares) erode or even eliminate planetary atmospheres. Using our program stars, we have reconstructed the past exposures of Kapteyn's Star's planets to coronal-chromospheric XUV emissions over time.
ISSN:0004-637X
1538-4357
DOI:10.3847/0004-637X/821/2/81