HD 82943
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HD 82943 (164 G. Hydrae) is a star with a pair of orbiting exoplanets in the equatorial constellation of Hydra. It has an apparent visual magnitude of 6.54,<ref name=Anderson_Francis_2012/> which is near the lower limit of visibility to the naked eye. Based on parallax measurements, the distance to this system is 90.3 light years.<ref name=GaiaDR3/> It is drifting further away with a heliocentric radial velocity of 8.1 km/s.<ref name=Soubiran_et_al_2018/> The star shows a high proper motion, traversing the celestial sphere at an angular rate of Template:Val.<ref name=Luyten1995/>
The spectrum of HD 82943 presents as an F-type main-sequence star<ref name=Kennedy_et_al_2013/> with a stellar classification of Template:Nowrap.<ref name=aj132_1_161/> The suffix notation indicates a mild strengthening of iron lines relative to a typical star of its type. Nonetheless, it is considered a metal-rich star,<ref name=Santos_et_al_2000/> having a higher abundance of many elements with masses greater than helium as compared to the Sun. This star is around 3<ref name=Bonfanti_et_al_2016/> billion years old and is spinning with a rotation period of 18 days.<ref name="Mayor2004"/> It is 14% more massive and has a 17% larger radius than the Sun. The star is radiating 154% of the luminosity of the Sun from its photosphere at an effective temperature of 5,944 K.<ref name=Bonfanti_et_al_2016/>
Planetary systemEdit
The first exoplanet discovered (designated HD 82943 b) was announced in 2000 by a team of French astronomers led by Michel Mayor.<ref name="eso0019"/> The exoplanet orbits its parent star at a mean distance of 1.19 astronomical units (AU) and taking approximately 441 days to complete the orbit. Nearly a year later, a second exoplanet (designated HD 82943 c) was announced by the same discoverers of the previous planet.<ref name="eso0114"/> This exoplanet orbits closer than the other, at a mean distance of 0.746 AU and taking 219 days to complete its orbit.<ref name="Lee2006"/> The two known exoplanet appear to have a 2:1 resonance with one another.<ref name="Lee2006"/> Further radial velocity analysis hinted at either long-period stellar activity or presence of a third Jovian exoplanet with an orbital period of 1075 days.<ref name=Baluev_Beaugé_2014/>
Announced in 2001, HD 82943 was found to contain an unusually high abundance of lithium-6. Upon reaching a sufficient core temperature, young stars quickly burn through their initial allotment of lithium-6, whereas planets should retain their lithium-6.<ref name="eso0118"/> Thus the simplest and most convincing answer to explain this observation is that one or more planets, or at least planetary material, have fallen into the star sometime after it passed through its early evolutionary stage.
A circumstellar debris disk was discovered in 2003, based on an infrared excess detected in the system. The inner edge of this disk orbits at a distance of Template:Val from the host star. The distance to the outer edge is poorly constrained.<ref name=Kennedy_et_al_2013/>
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See alsoEdit
ReferencesEdit
External linksEdit
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- Extrasolar Planet Interactions Template:Webarchive by Rory Barnes & Richard Greenberg, Lunar and Planetary Lab, University of Arizona