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Gliese 581 d

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Gliese 581 d
Exoplanet List of exoplanets
300px
Size comparison of Gliese 581 d with Earth and Neptune.
(Based on selected hypothetical modeled compositions)
Parent star
Star Gliese 581[1]
Constellation Libra
Right ascension (α) 15h 19m 26s[2]
Declination (δ) −07° 43′ 20″[2]
Apparent magnitude (mV) 10.56 to 10.58[2]
Distance 20.37 ly
(6.26 pc)
Spectral type M3V[3]
Mass (m) 0.31[4] M
Radius (r) 0.29[3] R
Temperature (T) 3480 ± 48[5] K
Metallicity [Fe/H] -0.33 ± 0.12[5]
Age 7 – 11[4] Gyr
Orbital elements
Epoch JD 2451409.762[1]
Semi-major axis (a) 0.21847 ± 0.00028[1] AU
Eccentricity (e) 0[1]
Orbital period (P) 66.87 ± 0.13[1] d
(0.183 y)
    (1600 h)
Mean anomaly (M) 56 ± 27[1]°
Semi-amplitude (K) 1.91 ± 0.22[1] m/s
Physical characteristics
Mass (m) 6.98[6] M
Radius (r) 2.20 [6] R
Stellar flux (F) 0.27
Discovery information
Discovery date 24 April 2007[7]
Discoverer(s) Udry et al.[7]
Discovery method Radial velocity
Discovery site La Silla Observatory, Chile
Discovery status Possibly confirmed[8]
Other designations
HO Librae d, HO Lib d, BD−07°4003 d, GJ 581 d, HIP 74995 d, LFT 1195 d, LHS 394 d, LPM 564 d, LTT 6112 d, NLTT 39886 d, TYC 5594-1093-1 d, Wolf 562 d.
Database references
Extrasolar Planets
Encyclopaedia		 data
SIMBAD data
Exoplanet Archive data
Open Exoplanet Catalogue data

Gliese 581 d /ˈɡlzə/ (often shortened to Gl 581 d or GJ 581 d) is a possible extrasolar planet orbiting the star Gliese 581 approximately 20.4 light-years away in the constellation of Libra. It is the third planet claimed in the system and (assuming a six-planet model) the fifth in order from the star.

Though not confirmed to be a terrestrial planet and significantly more massive than Earth (at 6.98 Earth masses), the Super-Earth is the first exoplanet of terrestrial mass proposed to orbit within the habitable zone of its parent star.

Assuming its existence, computer climate simulations have confirmed the possibility of the existence of surface water and these factors combine to a relatively high measure of planetary habitability.

Discovery

A team of astronomers led by Stéphane Udry of the Geneva Observatory used the HARPS instrument on the European Southern Observatory 3.6 meter telescope in La Silla, Chile to discover the planet in 2007. Udry's team employed the radial velocity technique, in which the mass of a planet is determined based on the small perturbations it induces in its parent star’s orbit via gravity.[9]

Formerly disputed

In September 2012, Roman Baluev filtered out the "red noise" from the Keck data and concluded that this planet's existence is probable only to 2.2 standard deviations.[10]

That same year, however, a team from the USNO confirmed the existence of the planet with a much higher probability.[11]

A study in 2014 concluded that Gliese 581 d is "an artifact of stellar activity which, when incompletely corrected, causes the false detection of planet g."[12][13] In 2015, a study by Dr Guillem Anglada-Escudé concluded that the planet could exist.[14]

Orbital characteristics

Gliese 581 d orbits Gliese 581 at 0.21847 AU, approximately a fifth of the distance that the Earth orbits the Sun, though its orbital eccentricity has not been confirmed. There are currently two models for its orbit, a circular one like Earth's, and an eccentric one like Mercury's. These are based on the four planet and six planet model for the Gliese 581 system, respectively. Under the four planet model Gliese 581 d would most probably be in a spin-orbit resonance of 2:1, rotating twice for each orbit of its parent star. Therefore, the day on Gliese 581 d should approximately be 67 Earth days long.[11][15]

The orbital distance places it at the outer limits of the habitable zone, the distance at which it is believed possible for water to exist on the surface of a planetary body. At the time of its discovery, the planet's orbit was originally thought to be farther out. However, in late April 2009 the original discovery team revised its original estimate of the planet's orbital parameters, finding that it orbits closer to its star than originally determined with an orbital period of 66.87 days. They concluded that the planet is within the habitable zone where liquid water could exist.[16][17] Moreover, the data [18] also suggested that the proposed exoplanet [19] could have at least one[20] or more large oceans.

Possible confirmation

The planet's existence has been disputed due to inaccurate analysis from stellar activity,[12][13] but later reanalysis of data suggests planet Gliese 581 d could really exist, despite stellar variability,[14] exciting astronomers.

Physical characteristics

The motion of the parent star indicates a minimum mass for Gliese 581 d of 5.6 Earth masses (earlier analyses gave higher values).[1] Dynamical simulations of the Gliese 581 system assuming that the orbits of the three planets are coplanar show that the system becomes unstable if the masses of the planets exceed 1.6 – 2 times the minimum values. Using earlier minimum mass values for Gliese 581 d, this implies an upper mass limit for Gliese 581 d of 13.8 Earth masses.[16] The composition of the planet, however, is not known.

Climate and habitability

The habitable zone of Gliese 581 compared with our Solar System's habitable zone, showing Gliese 581 d near the outer edge

As the planet is not known to transit from Earth and atmospheric conditions are not observable with current technology, no atmosphere for the planet has been confirmed to date. As such, all climate predictions for the planet are based on predicted orbits and computer modelling of theoretical atmospheric conditions.

Because Gliese 581 d was believed to orbit outside the habitable zone of its star it was originally thought to be too cold for liquid water to be present. With the 2009 revised orbit, climate simulations conducted by researchers in France in 2011 indicated possible temperatures suitable for surface water at sufficient atmospheric pressure[21] According to Stéphane Udry, "It could be covered by a 'large and deep ocean'; it is the first serious ocean planet candidate."[22]

On average, the light that Gliese 581 d receives from its star has about 30% of the intensity of light the Earth receives from the Sun. By comparison, sunlight on Mars has about 40% of the intensity of that on Earth.[21] That might seem to suggest that Gliese 581 d is too cold to support liquid water and hence is inhospitable to life. However, an atmospheric greenhouse effect can significantly raise planetary temperatures. For example, Earth's own mean temperature would be about −18 °C[23] without any greenhouse gases, ranging from around 100 °C on the day side to −150 °C at night, much like that found on the Moon. If the atmosphere of Gliese 581 d produces a sufficiently large greenhouse effect, and the planet's geophysics stabilize the CO2 levels (as Earth's does via plate tectonics), then the surface temperature might permit a liquid water cycle, conceivably allowing the planet to support life.[24][25][26][27] Calculations by Barnes et al. suggest, however, that tidal heating is too low to keep plate tectonics active on the planet, unless radiogenic heating is somewhat higher than expected.[28]

Gliese 581 d is probably too massive to be made only of rocky material. It may have originally formed on a more distant orbit as an icy planet that then migrated closer to its star.[29][30] Its equilibrium temperature is 181 Kelvin.

Messages from Earth

In October 2008, members of the networking website Bebo beamed A Message From Earth, a high-power transmission at Gliese 581, using the RT-70 radio telescope belonging to the National Space Agency of Ukraine. This transmission is due to arrive in the Gliese 581 system's vicinity by the year 2029; the earliest possible arrival for a response, should there be one, would be in 2049.[31]

As part of the 2009 National Science Week celebrations in Australia, Cosmos magazine launched a website called Hello From Earth to collect messages for transmission to Gliese 581 d. The maximum length of the messages was 160 characters, and they were restricted to the English language. In total, 25,880 messages were collected from 195 countries around the world. The messages were transmitted from the DSS-43 70 m radio telescope at the Canberra Deep Space Communication Complex at Tidbinbilla, Australia, on 28 August 2009.[32]

Gallery

  • Planet Gliese 581 d.png

    Artist's impression of Gliese 581 d as a Super-Earth.

See also

References

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  8. Space Life Sustaining 'Super-Earth' Gliese 581d Confirmed / Video French scientists verify alien planet Gliese 581d's climate is stable and warm enough for oceans, clouds and rainfall. A spaceship traveling at light speed would take 20 years to get there. Video is an artist impression of the planet.
  9. "The HARPS search for southern extra-solar planets", S. Udry. X. Bonfils. X. Delfosse. T. Forveille. M. Mayor. C. Perrier. F. Bouchy. C. Lovis. F. Pepe. D. Queloz. J.-L. Bertaux. The Extrasolar Planets Encyclopaedia. April 4, 2007. Accessed June 10, 2011
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  18. R. Stewart, (2013). " First View of Gliese-581 d; A preliminary Surface Survey (Part-1). Publisher-(IJAAR), (Issue 2013). At-http://www.journals-of-science.com/5-feature-research-pap.html
  19. STEWART, R., CELEBONOVIC, V., AGUIAR, O.A.,CHATZITHEODORIDIS, E., ACKERMAN, J., ROMAN, M.,ARTUSO, G., TRENTADUE, W., SAMADI, A., ARISTIZABAL,C.I.O. and others. Gliese 581d; Views of Its atmospheric, topographical, geological, and oceanic conditions (Part 2). Journal of The International Society of Peer Reviewers. Available at: http://www.stewart-research-consulting.com/8-astronomy.html . Which in summary shows its atmosphere geology topography and oceanic conditions.
  20. AGUIAR, O.A., STEWART, R., ARTUSO, G., SAMADI, A., ARISTIZABAL, C.I.O., ACKERMAN, J.R., TRENTADUE, W. The (possible) conrmation of the First exo-oceans. Pluralidade 1: 82-95, 2013. At- http://www.pluralidade.info/Eindex.html .
  21. 21.0 21.1 Lua error in package.lua at line 80: module 'strict' not found.
  22. "Lightest exoplanet yet discovered", European Southern Observatory. April 21, 2009. Accessed June 10, 2011
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External links

Preceded by
None
 Highest ESI for an Exoplanet
2007 — 2010		 Succeeded by
Gliese 581 g

Coordinates: Sky map 15h 19m 27s, −07° 43′ 19″

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