Tau Boötis
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Tau Boötis is a wide binary star system in the northern constellation of Boötes. Its name is a Bayer designation that is Latinised from τ Boötis, and abbreviated Tau Boo or τ Boo. This system is visible to the naked eye at a point of light with a combined apparent visual magnitude of 4.50.<ref name=aaa352_495/> Based on parallax measurements,<ref name="Gaia DR3"/> It is located at a distance of approximately Template:Convert from the Earth. This system is drifting closer to the Sun with a radial velocity of −16 km/s.<ref name=Nidever_et_al_2013/>
The primary component is an ordinary F-type main-sequence star that is larger, brighter, and more massive than the Sun, while the secondary is a faint red dwarf. In 1999, an extrasolar planet was detected orbiting the primary star.
Stellar components
The primary component is a yellow-white F-type main-sequence star with a stellar classification of F6V. It is 35 percent more massive and 42 percent larger than the Sun. The star is radiating three<ref name=borsa/> times the luminosity of the Sun from its photosphere at an effective temperature of 6,387 K.<ref name="Justesen2019"/> It is about 1.3 billion years old, making it younger than the Sun.<ref name="Justesen2019"/> Since it is more massive than the Sun, its lifespan is shorter—less than 6 billion years. This star is spinning with a projected rotational velocity of 14.3 km/s,<ref name=borsa/> completing a rotation every three days.<ref name="Justesen2019"/>
The primary is the first star apart from the Sun to be observed changing the polarity of its magnetic field.<ref name="Donati2008"/> It is listed as a suspected variable star. The magnetic activity cycle for this star shows a period of 122 days—much shorter than the solar cycle.<ref name=Mittag2017/>
The secondary companion is a dim, 11th magnitude red dwarf of spectral type M2.<ref name="Justesen2019" /> It only about half the mass and radius of the Sun.<ref name=Justesen2019/> The stars orbit each other at a typical distance of about 220 AU (14 arcseconds) but come as close as about 28 AU during periapsis, giving its orbit a very high eccentricity of about 0.87. One orbit around the primary would take approximately 2,400 years to complete, although this period is poorly constrained.<ref name="Justesen2019"/>
Planetary system
In 1996 the exoplanet Tau Boötis b was discovered orbiting the primary star by a team of astronomers led by R. Paul Butler.<ref name="Butler1997"/> It has six times the mass of Jupiter and is orbiting the star with a period of 3.3 days.<ref name="Butler2006"/> Tau Boötis and its planet appear to be tidally locked to each other.<ref name="Walker2008"/> In 2014, water vapor was discovered in the atmosphere of this hot Jupiter.<ref name=Lockwood_et_al_2014/>
There are indications of a second planet orbiting the star with a period of roughly 5,000 days; however, this could be due to an instrumental effect or a stellar magnetic activity cycle.<ref name="Howard2016"/> Because this is a highly eccentric binary star system, the maximum exoplanetary orbit around the primary that is dynamically stable for long periods has a semimajor axis of Template:Val.<ref name=Jaime_et_al_2012/>
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Naming controversy
The planet and its host star was one of the planetary systems selected by the International Astronomical Union as part of NameExoWorlds, their public process for giving proper names to exoplanets and their host star (where no proper name already exists).<ref name=nameexoworlds/><ref name=statistics/> The process involved public nomination and voting for the new names, and the IAU announced the new names in mid-December 2015.<ref name=process/>
However, the IAU annulled the vote for the system, as the winning names ("Shri Ram Matt" for the star and "Bhagavatidevi" for the planet)<ref name=statistics/> were judged not to conform with the IAU rules for naming exoplanets due to the political activities of the namesake people.<ref name=vote/> The names garnered the majority of the votes cast for the system, and made up a significant proportion of all votes cast as part of the contest.<ref name=statistics/>
See also
References
External links
- F-type main-sequence stars
- M-type main-sequence stars
- Binary stars
- Multi-star planetary systems
- Planetary systems with one confirmed planet
- Boötes
- Bayer objects
- Bright Star Catalogue objects
- Durchmusterung objects
- Flamsteed objects
- Gliese and GJ objects
- Henry Draper Catalogue objects
- Hipparcos objects
- Population I stars