HD 28185 b

HD 28185 b
Exoplanet List of exoplanets
Parent star
Star HD 28185
Constellation Eridanus
Right ascension (α) 04h 26m 26.323s[1]
Declination (δ) –10° 33 02.93[1]
Apparent magnitude (mV) 7.81
Distance138 ± 5[1] ly
(42 ± 2[1] pc)
Spectral type G5V
Mass (m) 0.99 ± 0.07 M
Radius (r) 1.04 R
Temperature (T) 5705 K
Metallicity [Fe/H] 0.24
Age 7.5 Gyr
Orbital elements
Semi-major axis(a) 1.031 ± 0.060 AU
(154.2 Gm)
Periastron (q) 0.959 AU
(143.5 Gm)
Apastron (Q) 1.102 AU
(164.9 Gm)
Eccentricity (e) 0.070 ± 0.040
Orbital period(P) 383.0 ± 2.0 d
(1.049 y)
Orbital speed (υ) 29.37 km/s
Argument of
periastron		 (ω) 351 ± 25°
Time of periastron (T0) 2,451,863 ± 26 JD
Semi-amplitude (K) 161 ± 11 m/s
Physical characteristics
Minimum mass(m sin i)5.72 ± 0.93 MJ
Discovery information
Discovery date April 4, 2001[2]
Discoverer(s) Santos et al.
Discovery method Radial velocity (CORALIE)
Discovery site  Chile La Silla Observatory
Discovery status Published
Database references
Extrasolar Planets
Encyclopaedia		data
SIMBADdata
Exoplanet Archivedata
Open Exoplanet Cataloguedata

HD 28185 b is an extrasolar planet approximately 138 light-years away from Earth in the constellation of Eridanus. The planet was discovered orbiting the Sun-like star HD 28185 in April 2001 as a part of the CORALIE survey for southern extrasolar planets, and its existence was independently confirmed by the Magellan Planet Search Survey in 2008.[3] HD 28185 b orbits its sun in a circular orbit that is at the inner edge of its star's habitable zone.[4]

Discovery

HD 28185 b was discovered by detecting small periodic variations in the radial velocity of its parent star caused by the gravitational attraction of the planet. This was achieved by measuring the Doppler shift of the star's spectrum. In 2001 it was announced that HD 28185 exhibited a wobble along the line-of-sight with a period of 383 days, with an amplitude indicating a minimum mass 5.72 times that of Jupiter.[2][5]

Orbit and mass

HD 28185 b takes 1.04 years to orbit its parent star. Unlike most known long-period planets, the orbit of HD 28185 b has a low eccentricity, comparable to that of Mars in the Solar System.[6] The orbit lies entirely within its star's habitable zone.[4]

The amplitude of the radial velocity oscillations means that the planet has a mass at least 5.7 times that of Jupiter in the Solar System. However, the radial velocity method only yields a minimum value on the planet's mass, depending on the orbital inclination to our line-of-sight. Therefore, the true mass of the planet may be much greater than this lower limit.

Characteristics

Given the planet's high mass, it is most likely to be a gas giant with no solid surface. Since the planet has only been detected indirectly through observations of the star, properties such as its radius, composition, and temperature are unknown.

Since HD 28185 b orbits in its star's habitable zone, some have speculated on the possibility of life on worlds in the HD 28185 system.[7] While it is unknown whether gas giants can support life, simulations of tidal interactions suggest that HD 28185 b could harbor Earth-mass satellites in orbit around it for many billions of years.[8] Such moons, if they exist, may be able to provide a habitable environment, though it is unclear whether such satellites would form in the first place.[9] Additionally, a small planet in one of the gas giant's Trojan points could survive in a habitable orbit for long periods.[10] The high mass of HD 28185 b, of over six Jupiter masses, actually makes either of these scenarios more likely than if the planet was about Jupiter's mass or less.

See also

References

  1. 1 2 3 4 van Leeuwen, F. (2007). "Validation of the new Hipparcos reduction". Astronomy and Astrophysics. 474 (2): 653–664. arXiv:0708.1752Freely accessible. Bibcode:2007A&A...474..653V. doi:10.1051/0004-6361:20078357.Vizier catalog entry
  2. 1 2 "Exoplanets: The Hunt Continues!" (Press release). Garching, Germany: European Southern Observatory. April 4, 2001. Retrieved December 27, 2012.
  3. Minniti, Dante; et al. (2009). "Low-Mass Companions for Five Solar-Type Stars From the Magellan Planet Search Program". The Astrophysical Journal. 693 (2): 1424–1430. arXiv:0810.5348Freely accessible. Bibcode:2009ApJ...693.1424M. doi:10.1088/0004-637X/693/2/1424.
  4. 1 2 Jones, Barrie W.; Sleep, P. Nick; Underwood, David R. (2006). "Habitability of Known Exoplanetary Systems Based on Measured Stellar Properties". The Astrophysical Journal. 649 (2): 10101019. arXiv:astro-ph/0603200Freely accessible. Bibcode:2006ApJ...649.1010J. doi:10.1086/506557.
  5. Santos, N.; et al. (2001). "The CORALIE survey for southern extra-solar planets VI. New long-period giant planets around HD 28185 and HD 213240". Astronomy and Astrophysics. 379 (3): 9991004. Bibcode:2001A&A...379..999S. doi:10.1051/0004-6361:20011366.
  6. Butler, R. P.; et al. (2006). "Catalog of Nearby Exoplanets". The Astrophysical Journal. 646 (1): 505–522. arXiv:astro-ph/0607493Freely accessible. Bibcode:2006ApJ...646..505B. doi:10.1086/504701.
  7. Mullen, L. (2001). "Extrasolar Planets with Earth-like Orbits". Retrieved 22 July 2006.
  8. Barnes, J., O'Brien, D. (2002). "Stability of Satellites around Close-in Extrasolar Giant Planets". Astrophysical Journal. 575 (2): 10871093. arXiv:astro-ph/0205035Freely accessible. Bibcode:2002ApJ...575.1087B. doi:10.1086/341477.
  9. Canup, R., Ward, W. (2006). "A common mass scaling for satellite systems of gaseous planets". Nature. 441 (7095): 834839. Bibcode:2006Natur.441..834C. doi:10.1038/nature04860. PMID 16778883.
  10. Schwarz, R.; Dvorak, R.; Süli, Á.; Érdi, B. (2007). "Survey of the stability region of hypothetical habitable Trojan planets". Astronomy and Astrophysics. 474 (3): 1023–1029. Bibcode:2007A&A...474.1023S. doi:10.1051/0004-6361:20077994.
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Coordinates: 04h 26m 26.3205s, −10° 33′ 02.955″

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