{{Short description|Long-period exoplanet orbiting b Centauri}} {{about|the exoplanet b Centauri b|the stars "β Centauri B" and "β Centauri AB"|Beta Centauri}} {{lowercasetitle}} {{Infobox planet |name= b Centauri b | image = [[File:Eso2118b.jpg|250px]] | caption = b Centauri imaged by [[Very Large Telescope|VLT]]/[[Spectro-Polarimetric High-Contrast Exoplanet Research|SPHERE]]. The planet b Centauri b is indicated by an arrow. |discovery_method= Direct imaging |discovered= 2021 |discoverer= [[Spectro-Polarimetric High-Contrast Exoplanet Research|SPHERE]] |semimajor= {{val|556|17|ul=AU}} |period= {{val|7170|2650}} years |inclination= {{val|157|128|ul=deg}} |star= [[HD 129116|b Centauri]] |mean_radius= 1.11 {{Jupiter radius|link=y}} |mass= {{val|10.9|1.6}} {{Jupiter mass|link=y}} |density = |single_temperature= |eccentricity=0.4 }}

'''b Centauri b''' (sometimes b Centauri (AB)b) is a [[circumbinary planet]] orbiting the binary star system [[HD 129116|b Centauri]], located in the southern constellation [[Centaurus]]. The planet is a [[super-Jupiter]], with a mass 10.9 times [[Jupiter mass|that of Jupiter]].<ref>{{Cite web |title=Exoplanet-catalog |url=https://exoplanets.nasa.gov/exoplanet-catalog/8381/b-centauri-ab-b/ |access-date=2023-10-24 |website=Exoplanet Exploration: Planets Beyond our Solar System (NASA) |language=en}}</ref>

== Discovery == [[File:Artist impression showing b Centauri and its giant planet.jpg|thumb|left|Artist's impression showing b Centauri b. b Centauri is in the background.]] The b Centauri system was included in the BEAST survey, which uses the [[SPHERE]] instrument at the [[Very Large Telescope]] to search for planets around B-type stars in the Scorpius–Centaurus association. SPHERE is equipped with a sophisticated [[coronagraph]] that blocks out the light from a star and allows exoplanets around it to be [[direct imaging|directly imaged]].<ref name=Janson2021beast/> The first observation of the system in 2019 revealed an object at a {{val|5.3|u=arcseconds}} separation that had infrared colors consistent with a massive planet. A second observation in 2021 confirmed that the object has common proper motion with b Centauri and therefore is physically bound to the system.<ref name=Janson2021/> The authors of this study also looked for old observations of b Centauri and found that the planet had been imaged by the [[ESO 3.6 m Telescope]] in 2000, but was considered a background star at the time.<ref name=Janson2021/><ref name=Shatsky2002/> With a primary star mass of {{solar mass|5–6}} and a total system mass of {{solar mass|6–10}}, b Centauri is the most massive system around which a planet has been found; previously, the most massive star with a known planet was {{solar mass|3}}. The discovery was published in December 2021 on the scientific journal ''[[Nature (journal)|Nature]]'' and was led by [[Stockholm University]] astronomer Markus Janson.<ref name=Janson2021/> Named b Centauri (AB)b (shortened as 'b Cen (AB)b'), it is a [[circumbinary planet]] that orbits the stellar pair at a projected separation of {{val|560|u=AU}}. The three epochs of observations show evidence of the orbital motion of the planet around the central stars, but the orbit is still not well constrained. The data are consistent with an [[orbital period]] between 2650 and 7170 years, inclination between 128 and 157 degrees, and [[Orbital eccentricity|eccentricity]] smaller than 0.4.<ref name=Janson2021/>

The SPHERE images show the planet has approximately 0.01% the solar luminosity, a relic of its recent formation. From this luminosity and the age of the system, cooling models predict it has a mass of about 11 times the [[mass of Jupiter]]. The mass ratio between b Cen (AB)b and the central binary star is 0.10—0.17%, which is similar to the Sun-Jupiter system and is consistent to the expectations that more massive stars tend to have more massive planets.<ref name=Janson2021/>

== Formation == The formation mechanism for b Cen (AB)b is uncertain. It is believed that most giant planets are formed via [[Core-accretion theory|core accretion]], in which a rocky core, after growing to a critical mass, starts rapidly [[Accretion (astrophysics)|accreting]] the surrounding gas of the [[circumstellar disc]]. This mechanism cannot explain b Cen (AB)b, because core accretion becomes less efficient at large distances from the star, and massive stars like b Centauri A cause the disc to dissipate much quicker. It is more probable that the planet formed directly from the circumstellar gas, through a mechanism known as gravitational instability. This process is much faster than core accretion and can act even at separations of hundreds of astronomical units. Another possibility is that the planet formed closer to the central stars and was subsequently ejected to its current orbit through interactions with another body, but this is disfavored by the lack of evidence of other planets in the system and by the low eccentricity of b Cen (AB)b.<ref name=Janson2021/>

The discovery of b Cen (AB)b showed that planets can exist even around massive stars. Previous studies had shown that planet occurrence rate starts to drop for stars over 2 {{solar mass}} and reaches almost zero for 3 {{solar mass}} stars, but this result is valid only for close in planets, which the [[radial velocity method]] can detect. The discovers of b Cen (AB)b argued that the short lifetime of the circumstellar discs around massive stars may prevent planets from [[Planetary migration|migrating]] closer to their stars, but allows the existence of distant planets like b Cen (AB)b.<ref name=Janson2021/>

== References == <references>

<ref name=Janson2021>{{cite journal |bibcode=2021Natur.600..231J|title=A wide-orbit giant planet in the high-mass b Centauri binary system|last1=Janson|first1=Markus|last2=Gratton|first2=Raffaele|last3=Rodet|first3=Laetitia|last4=Vigan|first4=Arthur|last5=Bonnefoy|first5=Mickaël|last6=Delorme|first6=Philippe|last7=Mamajek|first7=Eric E.|last8=Reffert|first8=Sabine|last9=Stock|first9=Lukas|last10=Marleau|first10=Gabriel-Dominique|last11=Langlois|first11=Maud|last12=Chauvin|first12=Gaël|last13=Desidera|first13=Silvano|last14=Ringqvist|first14=Simon|last15=Mayer|first15=Lucio|last16=Viswanath|first16=Gayathri|last17=Squicciarini|first17=Vito|last18=Meyer|first18=Michael R.|last19=Samland|first19=Matthias|last20=Petrus|first20=Simon|last21=Helled|first21=Ravit|last22=Kenworthy|first22=Matthew A.|last23=Quanz|first23=Sascha P.|last24=Biller|first24=Beth|last25=Henning|first25=Thomas|last26=Mesa|first26=Dino|last27=Engler|first27=Natalia|last28=Carson|first28=Joseph C.|display-authors=1|journal=Nature|year=2021|volume=600|issue=7888|pages=231–234|doi=10.1038/s41586-021-04124-8|pmid=34880428|arxiv=2112.04833|s2cid=245005994}}</ref>

<ref name=Janson2021beast>{{Cite journal|bibcode = 2021A&A...646A.164J|title = BEAST begins: Sample characteristics and survey performance of the B-star Exoplanet Abundance Study|last1 = Janson|first1 = Markus|last2 = Squicciarini|first2 = Vito|last3 = Delorme|first3 = Philippe|last4 = Gratton|first4 = Raffaele|last5 = Bonnefoy|first5 = Mickaël|last6 = Reffert|first6 = Sabine|last7 = Mamajek|first7 = Eric E.|last8 = Eriksson|first8 = Simon C.|last9 = Vigan|first9 = Arthur|last10 = Langlois|first10 = Maud|last11 = Engler|first11 = Natalia|last12 = Chauvin|first12 = Gaël|last13 = Desidera|first13 = Silvano|last14 = Mayer|first14 = Lucio|last15 = Marleau|first15 = Gabriel-Dominique|last16 = Bohn|first16 = Alexander J.|last17 = Samland|first17 = Matthias|last18 = Meyer|first18 = Michael|last19 = d'Orazi|first19 = Valentina|last20 = Henning|first20 = Thomas|last21 = Quanz|first21 = Sascha|last22 = Kenworthy|first22 = Matthew|last23 = Carson|first23 = Joseph C.|display-authors=1|journal = Astronomy and Astrophysics|year = 2021|volume = 646|pages = A164|doi = 10.1051/0004-6361/202039683|arxiv = 2101.02043|s2cid = 230770142}}</ref>

<ref name=Shatsky2002>{{Cite journal|bibcode = 2002A&A...382...92S|title = The mass ratio distribution of B-type visual binaries in the Sco OB2 association|last1 = Shatsky|first1 = N.|last2 = Tokovinin|first2 = A.|journal = Astronomy and Astrophysics|year = 2002|volume = 382|page = 92|doi = 10.1051/0004-6361:20011542|arxiv = astro-ph/0109456|s2cid = 16697655}}</ref>

</references>

{{Stars of Centaurus}}

[[Category:Exoplanets discovered in 2021]] [[Category:Exoplanets detected by direct imaging]]