Beta Hydri
Template:Short description Template:Starbox begin Template:Starbox image Template:Starbox observe Template:Starbox character Template:Starbox astrometry Template:Starbox detail Template:Starbox catalog Template:Starbox reference Template:Starbox end Beta Hydri (β Hyi, β Hydri) is a star in the southern circumpolar constellation of Hydrus. (Note that Hydrus is not the same as Hydra.) With an apparent visual magnitude of 2.8,<ref name=Johnson1966/> this is the brightest star in the constellation. Based upon parallax measurements the distance to this star is about Template:Convert.<ref name="van Leeuwen 2007"/>
This star has about 113% of the mass of the Sun and 184% of the Sun's radius, with more than three times the Sun's luminosity.<ref name=Metcalfe2024/> The spectrum of this star matches a stellar classification of G2 IV, with the luminosity class of 'IV' indicating this is a subgiant star. As such, it is a slightly more evolved star than the Sun, with the supply of hydrogen at its core becoming exhausted. It is one of the oldest stars in the solar neighborhood. This star bears some resemblance to what the Sun might look like in the far distant future, making it an object of interest to astronomers.<ref name=Brandão2011/>
At a distance of 13°, it is the closest easily visible star to the south celestial pole, and around 150 BC it was within two degrees of it, which made it the southern pole star.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>
Search for planetsEdit
In 2002, Endl et al. inferred the possible presence of an unseen companion orbiting Beta Hydri as hinted by a radial velocity linear trend with a periodicity exceeding 20 years. A substellar object such as a planet with a minimum mass of 4 Jupiter masses and orbital separation of roughly 8 AU could explain the observed trend.<ref name="ESO2002">Template:Cite journal</ref> If confirmed, it would be a true Jupiter-analogue, though 4 times more massive. So far no planetary/substellar object has been certainly detected.
These results were not confirmed in CES and HARPS measurements published in 2012. Instead, the long-term radial velocity variations may be caused by the star's magnetic cycle.<ref>Template:Cite journal</ref> Similarly, a 2023 study detected long-period radial velocity variations that were attributed to stellar activity.<ref name="Laliotis2023"/>
See alsoEdit
ReferencesEdit
External linksEdit
- {{#invoke:citation/CS1|citation
|CitationClass=web }}
- {{#invoke:citation/CS1|citation
|CitationClass=web }}