2M1207b

2M1207b
Exoplanet List of exoplanets

Size comparison of 2M1207b with Jupiter.
Parent star
Star 2M1207
Right ascension (α) 12h 07m 33.47s[1]
Declination (δ) −39° 32 54.0[1]
Distance172 ± 3 ly
(52.75+1.04
1.00
[2] pc)
Spectral type M8[1]
Observed separation
Observation epoch 2005[3]
Angular separation (ρ) 769 ± 10[3] mas
Position angle (θ) 125.6 ± 0.7[3]°
Projected separation (d) 40.6 ± 1.3[4] AU
Physical characteristics
Mass(m)4+6
−1
[5] MJ
Radius(r)1.5[5] RJ
Temperature (T) 1600 ± 100 K[3]
Discovery information
Discovery date April 2004
Discoverer(s) Chauvin et al.
Discovery method Imaged
Discovery status Published[6]
Database references
Extrasolar Planets
Encyclopaedia
data
SIMBADdata
Exoplanet Archivedata
Open Exoplanet Cataloguedata

2M1207b is a planetary-mass object orbiting the brown dwarf 2M1207, in the constellation Centaurus, approximately 170 light-years from Earth.[2] It is one of the first candidate exoplanets to be directly observed (by infrared imaging). It was discovered in April 2004 by the Very Large Telescope (VLT) at the Paranal Observatory in Chile by a team from the European Southern Observatory led by Gaël Chauvin.[6] It is believed to be from 3 to 10 times the mass of Jupiter and may orbit 2M1207 at a distance roughly as far from the brown dwarf as Pluto is from the Sun.[5]

The object is a very hot gas giant; the estimated surface temperature is roughly 1600 K (1300 °C or 2400 °F), mostly due to gravitational contraction.[3] Its mass is well below the calculated limit for deuterium fusion in brown dwarfs, which is 13 Jupiter masses. The projected distance between 2M1207b and its primary is around 40 AU (similar to the mean distance between Pluto and the Sun).[4] Its infrared spectrum indicates the presence of water molecules in its atmosphere.[7] The object is not a likely candidate to support life, either on its surface or on any satellites.

Discovery and identification

Infrared image of 2M1207 (blueish) and 2M1207b (reddish). The two objects are separated by less than one arc second in Earth's sky. Image taken using the ESO's 8.2m Yepun VLT.

2M1207b is around 100 times fainter in the sky than its companion.[8] It was first spotted as a "faint reddish speck of light" in 2004 by the VLT. After the initial observation, there was some question as to whether the objects might be merely an optical double, but subsequent observations by the Hubble Space Telescope and the VLT have shown that the objects move together and are therefore presumably a binary system.[7]

An initial photometric estimate for the distance to 2M1207b was 70 parsecs.[2] In December 2005, American astronomer Eric Mamajek reported a more accurate distance (53 ± 6 parsecs) to 2M1207b using the moving-cluster method.[9] Recent trigonometric parallax results have confirmed this moving-cluster distance, leading to a distance estimate of 52.75+1.04
1.00
parsecs or 172 ± 3 light years.[2]

Properties

Estimates for the mass, size, and temperature of 2M1207b are still uncertain. Although spectroscopic evidence is consistent with a mass of 8 ± 2 Jupiter masses and a surface temperature of 1600 ± 100 kelvin, theoretical models for such an object predict a luminosity 10 times greater than observed. Because of this, lower estimates for the mass and temperature have been proposed. Alternatively, 2M1207b might be dimmed by a surrounding disk of dust and gas.[3] As an unlikely possibility, Mamajek and Michael Meyer have suggested that the planet is actually much smaller, but is radiating away heat generated by a recent collision.[10][11]

Although the mass of 2M1207b is less than that required for deuterium fusion to occur, some 13 times the mass of Jupiter, and the image of 2M1207b has been widely hailed as the first direct image of an exoplanet, it may be questioned whether 2M1207b is actually a planet. Some definitions of the term planet require a planet to have formed in the same way as the planets in the Solar System did, by secondary accretion in a protoplanetary disk.[12] With such a definition, if 2M1207b formed by direct gravitational collapse of a gaseous nebula, it would be a sub-brown dwarf rather than a planet. A similar debate exists regarding the identity of GQ Lupi b, also first imaged in 2004.[13] On the other hand, the discovery of marginal cases like Cha 110913-773444—a free-floating, planetary-mass object—raises the question of whether distinction by formation is a reliable dividing line between stars/brown dwarfs and planets.[14] As of 2006, the International Astronomical Union Working Group on Extrasolar Planets described 2M1207b as a "possible planetary-mass companion to a brown dwarf."[15]

See also

References

  1. 1 2 3 2M1207A, entry, SIMBAD. Accessed on line June 15, 2008.
  2. 1 2 3 4 "The Distance to the 2M1207 System" Archived 2008-01-24 at the Wayback Machine., Eric Mamajek, November 8, 2007. Accessed on line June 15, 2008.
  3. 1 2 3 4 5 6 The Planetary Mass Companion 2MASS 1207-3932B: Temperature, Mass, and Evidence for an Edge-on Disk, Subhanjoy Mohanty, Ray Jayawardhana, Nuria Huelamo, and Eric Mamajek, Astrophysical Journal 657, #2 (March 2007), pp. 1064–1091. Bibcode: 2007ApJ...657.1064M doi:10.1086/510877.
  4. 1 2 Estimated observed projected separation from observed angular separation and estimated distance.
  5. 1 2 3 Star: 2M1207 Archived 2011-10-06 at the Wayback Machine., Extrasolar Planets Encyclopaedia. Accessed on line June 15, 2008.
  6. 1 2 A giant planet candidate near a young brown dwarf. Direct VLT/NACO observations using IR wavefront sensing, G. Chauvin, A.-M. Lagrange, C. Dumas, B. Zuckerman, D. Mouillet, I. Song, J.-L. Beuzit, P. Lowrance, Astronomy and Astrophysics, 425 (October 2004), pp. L29–L32. Bibcode: 2004A&A...425L..29C doi:10.1051/0004-6361:200400056.
  7. 1 2 Yes, it is the Image of an Exoplanet: Astronomers Confirm the First Image of a Planet Outside of Our Solar System, ESO Press Release 12/05, April 30, 2005, European Southern Observatory. Accessed on line July 10, 2010.
  8. Bolometric luminosity, Table 1, Mohanty 2007.
  9. Mamajek (2005). "A Moving Cluster Distance to the Exoplanet 2M1207b in the TW Hydrae Association". The Astrophysical Journal. 634 (2): 1385–1394. Bibcode:2005ApJ...634.1385M. arXiv:astro-ph/0507416Freely accessible. doi:10.1086/468181.
  10. An Improbable Solution to the Underluminosity of 2M1207B: A Hot Protoplanet Collision Afterglow, Eric E. Mamajek and Michael R. Meyer, Astrophysical Journal 668, #2 (October 2007), pp. L175–L178. Bibcode: 2007ApJ...668L.175M doi:10.1086/522957.
  11. "Planet collision could explain alien world's heat". NewScientist Space Website. January 9, 2008. Archived from the original on 10 January 2008. Retrieved 2008-01-11.
  12. E.g., Soter, in What Is a Planet?, Astronomical Journal 132, #6 (December 2006), pp. 2513–2519. Bibcode: 2006AJ....132.2513S doi:10.1086/508861.
  13. Fresh Debate over First Photo of Extrasolar Planet, Robert Roy Britt, space.com, April 30, 2005. Accessed on line June 16, 2008.
  14. A Planet With Planets? Spitzer Finds Cosmic Oddball, Whitney Clavin, news article, NASA, November 29, 2005. Accessed on line June 16, 2008.
  15. Lists of Extrasolar Planets Archived 2008-06-19 at the Wayback Machine., IAU Working Group on Extrasolar Planets, August 28, 2006. Accessed on line June 15, 2008.
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Coordinates: 12h 07m 33.47s, −39° 32′ 54.0″

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