- Beta Pictoris is a nearby star (63.4 light-years away) surrounded by gas and dust
- Large, suspected planet was spotted in images taken in 2003 and 2009
- New images have confirmed it is definitely a planet orbiting the star
IN 2009, ASTRONOMERS ANNOUNCED they had taken images of a suspected planet orbiting a nearby star.
Ordinarily, the presence of such exoplanets can be determined using various methods, but almost all of them are too small and too far away to be directly seen and imaged.
This particular planet, though, orbits a relatively nearby star called Beta Pictoris. It also happens that its orbit around the star is at right angles to our line-of-sight, making it much easier to spot.
Today, astronomers announced (in a paper published in the journal Astronomy & Astrophysics) that they have taken new images the planet, and have confirmed that its position has changed, consistent with it orbiting its star.
In the new observations, the planet—called ‘Beta Pictoris b’—was seen with the NaCo instrument on the European Southern Observatory’s (ESO) Very Large Telescope (VLT) in Chile.
The observations have also enabled the astronomers to measure its mass and the effective temperature.
Huge and hot
Located 63.4 light-years away, Beta Pic is a very young star—only about 12 million years old, compared to our Sun’s age of 4.5 billion years. It is also 75% more massive than our Sun.
Beta Pic is well known for being encircled by a large cloud of gas and dust…what astronomers call a ‘circumstellar disc’. It was actually the first star to have its disc directly imaged more than 25 years ago.
In 2009, the giant planet was spotted orbiting within the disc. With an orbital distance of 8 to 15 astronomical units, Beta Pictoris b is the closest exoplanet to its star that has ever been imaged. (An astronomical unit, or AU, is a standard measurement in astronomy, being the distance between the Earth and the Sun.)
Analysing the new observations, the team have estimated the planet’s mass—around 7 to 11 times the mass of Jupiter (the largest planet in our Solar System). They’ve also estimated its temperature—between 1,100 and 1,700 degrees Celsius.
Just a youngster
The planet offers a new opportunity for astronomers to study planetary formation processes, and in particular the way planets and their stars’ circumstellar discs interact.
In fact, the new data has already told the astronomers something important about the formation of the planet (especially because the system is very young)—that the planet is still warm implies that it has retained most of the primordial heat acquired during its formation.
If it had formed in a similar way to the giant planets of our Solar System, its mass and temperature could not be explained by some models that suggest a total release of that energy.
More observations with NaCo and also with the next generation VLT instrument, SPHERE, should soon provide more details about the planet’s atmosphere and orbital properties, and about the way it influences the gas and dust cloud surrounding the star.
The team of astronomers includes M. Bonnefoy, A.-M. Lagrange, G. Chauvin, D. Ehrenreich, D. Mouillet (IPAG, Grenoble, France), A. Boccaletti, D. Rouan, D. Gratadour (LESIA-Observatoire de Paris, Meudon, France), D. Apai (Space Telescope Institute, Baltimore, USA), F. Allard (CRAL-ENS, Lyon, France), J.H.V Girard (ESO, Santiago, Chile), M. Kasper (ESO, Garching, Germany).
Adapted from information issued by Astronomy & Astrophysics. Illustration courtesy ESO / L. Calçada.
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