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GJ 1214 b

GJ 1214 b / Enaiposha
Size comparison of Enaiposha with Earth (left) and Neptune (right). The actual color of Enaiposha is not yet known.
Discovery[1]
Discovered byDavid Charbonneau, et al.
Discovery siteFred Lawrence Whipple Observatory
Discovery dateDecember 16, 2009
Transit (MEarth Project)
Designations
Enaiposha,[2] Gliese 1214 b
Orbital characteristics[3]
0.01490±0.00026 AU
Eccentricity< 0.063
1.580404571(42) d[4]
Inclination88.7°±0.1°
Semi-amplitude14.36±0.53 m/s
StarOrkaria/GJ 1214
Physical characteristics
2.742+0.050
−0.053 R🜨[3]
Mass8.17±0.43 M🜨[3]
Mean density
2.20+0.17
−0.16 g/cm3[3]
10.65+0.71
−0.67 m/s2[3] (1.09 g)
19.31+0.53
−0.54 km/s[3]
Albedo0.51±0.06 (Bond)[5]
Temperature553±K (280 °C; 536 °F, dayside)[5]
437±19 K (164 °C; 327 °F, nightside)[5]

GJ 1214 b (sometimes Gliese 1214 b,[6] also named Enaiposha since 2023[2]) is an exoplanet that orbits the star GJ 1214, and was discovered in December 2009. Its parent star is 48 light-years (15 pc) from the Sun, in the constellation Ophiuchus. At the time of its discovery, GJ 1214 b was the most likely known candidate for being an ocean planet.[1][7] For that reason, scientists at that time often called the planet a "waterworld".[8] However, a recent study of the planet's internal structure informed by observations taken with the James Webb Space Telescope suggests that a "waterworld" composition is implausible and the planet is more likely to host a thick gaseous envelope consisting of hydrogen, helium, water and other volatile chemicals such as methane or carbon dioxide.[9]

It is a mini-Neptune, meaning it is larger than Earth but is significantly smaller (in mass and radius) than the gas giants of the Solar System. After CoRoT-7b, it was the second planet between Earth and Neptune in mass to have both its mass and radius measured[1] and is the first of a new class of planets with small size and relatively low density.[10] GJ 1214 b is also significant because its parent star is relatively near the Sun and because it transits that parent star, which allows the planet's atmosphere to be studied using spectroscopic methods.[1]

Name

In August 2022, this planet and its host star were included among 20 systems to be named by the third NameExoWorlds project.[11] The approved names, proposed by a team from Kenya, were announced in June 2023. GJ 1214 b is named Enaiposha and its host star is named Orkaria, after the Maa words for a large body of water and for red ochre, alluding to the likely composition of the planet and color of the star.[2]

Physical characteristics

Mass, radius and temperature

Artist's impression of the planet with a hazy steam atmosphere[12]
Artist's impression of GJ 1214 b (foreground), illuminated by the red light of its parent star (center)
The newly discovered super-Earth orbiting the nearby star GJ 1214.
This artist's impression shows how GJ 1214 b may look as it transits its parent star. It is the second super-Earth for which astronomers have determined the mass and radius, giving vital clues about its structure.

The radius of GJ 1214 b can be inferred from the amount of dimming seen when the planet crosses in front of its parent star as viewed from Earth, yielding a radius of 2.742+0.050
−0.053 R🜨.[3] The mass of the planet can be inferred from sensitive observations of the parent star's radial velocity, measured through small shifts in stellar spectral lines due to the Doppler effect,[1] yielding a mass of 8.17±0.43 M🜨.[3] Given the planet's mass and radius, its density can be calculated. Through a comparison with theoretical models, the density in turn provides limited but highly useful information about the composition and structure of the planet.[1]

GJ 1214 b may be cooler than any other known transiting planet prior to the discovery of Kepler-16b in 2011 by the Kepler mission. Its equilibrium temperature is believed to be in the range of 393–555 K (120–282 °C; 248–539 °F), depending on how much of the star's radiation is reflected into space.[1][13]

Atmosphere

Due to the relatively small size of GJ 1214 b's parent star, it is feasible to perform spectroscopic observations during planetary transits. By comparing the observed spectrum before and during transits, the spectrum of the planetary atmosphere can be inferred. In December 2010, a study was published showing the spectrum to be largely featureless over the wavelength range of 750–1000 nm. Because a thick and cloud-free hydrogen-rich atmosphere would have produced detectable spectral features, such an atmosphere appears to be ruled out. Although no clear signs were observed of water vapor or any other molecule, the authors of the study believe the planet may have an atmosphere composed mainly of water vapor. Another possibility is that there may be a thick layer of high clouds, which absorbs the starlight.[14] Because of the estimated old age of the planetary system and the calculated hydrodynamic escape (loss of gasses that tends to deplete an atmosphere of higher molecular-weight constituents) rate of 900 tonnes per second, scientists conclude that there has been a significant atmospheric loss during the lifetime of the planet and any current atmosphere cannot be primordial.[1] The loss of primordial atmosphere was indirectly confirmed in 2020 as no helium was detected at GJ 1214 b.[15] Helium was tentatively detected in the atmosphere of GJ 1214 b by 2022 though.[16]

In December 2013, NASA reported that clouds may have been detected in the atmosphere of GJ 1214 b.[17][18][19][20] The atmosphere of GJ 1214 b may be abundant in CO₂ which resembles the planet Venus, according to a 2024 study.[21]

Possible compositions

[needs update] While very little is known about GJ 1214 b, there has been speculation as to its specific nature and composition. On the basis of planetary models[22] it has been suggested that GJ 1214 b has a relatively thick gaseous envelope,[10] totaling about 5% of planetary mass.[3] It is possible to propose structures by assuming different compositions, guided by scenarios for the formation and evolution of the planet.[10] GJ 1214 b could potentially be a rocky planet with an outgassed hydrogen-rich atmosphere, a mini-Neptune, or an ocean planet.[10] If it is a waterworld, it could possibly be thought of as a bigger and hotter version of Jupiter's Galilean moon Europa.[10] While no scientist has stated to believe GJ 1214 b is an ocean planet, if GJ 1214 b is assumed to be an ocean planet,[22] i.e. the interior is assumed to be composed primarily of a water core surrounded by more water, proportions of the total mass consistent with the mass and radius are about 25% rock and 75% water, covered by a thick envelope of gases such as hydrogen and helium (c. 0.05%).[1][13] Water planets could result from inward planetary migration and originate as protoplanets that formed from volatile ice-rich material beyond the snow-line but that never attained masses sufficient to accrete large amounts of H/He nebular gas.[10] Because of the varying pressure at depth, models of a water world include "steam, liquid, superfluid, high-pressure ices, and plasma phases" of water.[10] Some of the solid-phase water could be in the form of ice VII.[13]

In January 2025, spectroscopic analysis of GJ 1214 b revealed its atmospheric contents to be metallic, with carbon-dioxide acting as an aerosol, suspended above it.[23] This layout was noted to be similar to that of a "Super-Venus," although further analysis is needed to confirm whether the weak elemental readings are not a statistical anomaly. These discoveries make it unlikely that GJ 1214 b is an ocean planet.[24]

Discovery

GJ 1214 b was first detected by the MEarth Project, which searches for the small drops in brightness that can occur when an orbiting planet briefly passes in front of its parent star. In early 2009, the astronomers running the project noticed that the star GJ 1214 appeared to show drops in brightness of that sort. They then observed the star more closely and confirmed that it dimmed by roughly 1.5% every 1.58 days. Follow-up radial-velocity measurements were then made with the HARPS spectrograph on the ESO's 3.6-meter telescope at La Silla, Chile; those measurements succeeded in providing independent evidence for the reality of the planet. A paper was then published in Nature announcing the planet and giving estimates of its mass, radius, and orbital parameters.[1]

See also

References

  1. ^ a b c d e f g h i j Charbonneau, David; et al. (2009). "A super-Earth transiting a nearby low-mass star" (PDF). Nature. 462 (7275): 891–894. arXiv:0912.3229. Bibcode:2009Natur.462..891C. doi:10.1038/nature08679. PMID 20016595. S2CID 4360404.
  2. ^ a b c "2022 Approved Names". nameexoworlds.iau.org. IAU. Retrieved 7 June 2023.
  3. ^ a b c d e f g h i Cloutier, Ryan; Charbonneau, David; Deming, Drake; Bonfils, Xavier; Astudillo-Defru, Nicola (2021). "A more precise mass for GJ 1214 b and the frequency of multiplanet systems around mid-M dwarfs". The Astronomical Journal. 162 (5): 174. arXiv:2107.14732. Bibcode:2021AJ....162..174C. doi:10.3847/1538-3881/ac1584. S2CID 236635146.
  4. ^ Kokori, A.; et al. (14 February 2023). "ExoClock Project. III. 450 New Exoplanet Ephemerides from Ground and Space Observations". The Astrophysical Journal Supplement Series. 265 (1) 4. arXiv:2209.09673. Bibcode:2023ApJS..265....4K. doi:10.3847/1538-4365/ac9da4. Vizier catalog entry
  5. ^ a b c Kempton, Eliza M.-R.; Zhang, Michael; et al. (May 2023). "A reflective, metal-rich atmosphere for GJ 1214b from its JWST phase curve". Nature. 620 (7972): 67–71. arXiv:2305.06240. Bibcode:2023Natur.620...67K. doi:10.1038/s41586-023-06159-5. PMID 37164036.
  6. ^ Rein, Hanno; et al. "Open Exoplanet Catalogue – Gliese 1214 b". Open Exoplanet Catalogue. Retrieved 2 January 2014.
  7. ^ Kuchner, Seager; Hier-Majumder, M.; Militzer, C.A. (2007). "Mass–radius relationships for solid exoplanets". The Astrophysical Journal. 669 (2): 1279–1297. arXiv:0707.2895. Bibcode:2007ApJ...669.1279S. doi:10.1086/521346. S2CID 8369390.
  8. ^ "10 real planets that are stranger than science fiction". iflscience.com. 3 June 2015. Retrieved 2015-06-13.
  9. ^ Nixon, M. C.; Piette, A. A. A.; Kempton, E. M. -R.; Gao, P.; Bean, J. L.; Steinrueck, M. E.; Mahajan, A. S.; Eastman, J. D.; Zhang, M.; Rogers, L. A. (2024). "New Insights into the Internal Structure of GJ 1214 b informed by JWST". The Astrophysical Journal Letters. 970 (2): L28. arXiv:2407.12079. Bibcode:2024ApJ...970L..28N. doi:10.3847/2041-8213/ad615b.
  10. ^ a b c d e f g Rogers, L.A.; Seager, S. (2010). "Three possible origins for the gas layer on GJ 1214 b". The Astrophysical Journal (abstract). 716 (2): 1208–1216. arXiv:0912.3243. Bibcode:2010ApJ...716.1208R. doi:10.1088/0004-637X/716/2/1208. S2CID 15288792.
  11. ^ "List of ExoWorlds 2022". nameexoworlds.iau.org. IAU. 8 August 2022. Retrieved 27 August 2022.
  12. ^ Brennan, Pat (10 May 2023). "NASA's Webb Takes Closest Look Yet at Mysterious Planet". NASA. Retrieved 10 May 2023.
  13. ^ a b c Aguilar, David A. (2009-12-16). "Astronomers find super-Earth using amateur, off-the-shelf technology". Harvard-Smithsonian Center for Astrophysics. Retrieved December 16, 2009.
  14. ^ Bean, Jacob L.; Kempton, Eliza Miller-Ricci; Homeier, Derek (2010). "A ground-based transmission spectrum of the super-Earth exoplanet GJ 1214 b". Nature. 468 (7324): 669–672. arXiv:1012.0331. Bibcode:2010Natur.468..669B. doi:10.1038/nature09596. PMID 21124452. S2CID 4412196.
  15. ^ Kasper, David; Bean, Jacob L.; Oklopčić, Antonija; Malsky, Isaac; Kempton, Eliza M.-R.; Désert, Jean-Michel; Rogers, Leslie A.; Mansfield, Megan (2020). "Nondetection of helium in the upper atmospheres of three sub-Neptune exoplanets". The Astronomical Journal. 160 (6): 258. arXiv:2007.12968. Bibcode:2020AJ....160..258K. doi:10.3847/1538-3881/abbee6. S2CID 220793801.
  16. ^ Orell-Miquel, J.; Murgas, F.; Pallé, E.; Lampón, M.; López-Puertas, M.; Sanz-Forcada, J.; Nagel, E.; Kaminski, A.; Casasayas-Barris, N.; Nortmann, L.; Luque, R.; Molaverdikhani, K.; Sedaghati, E.; Caballero, J.A.; Amado, P.J.; Bergond, G.; Czesla, S.; Hatzes, A. P.; Henning, Th.; Khalafinejad, S.; Montes, D.; Morello, G.; Quirrenbach, A.; Reiners, A.; Ribas, I.; Sánchez-López, A.; Schweitzer, A.; Stangret, M.; Yan, F.; Zapatero Osorio, M.R. (2022). "A tentative detection of He I in the atmosphere of GJ 1214 b". Astronomy & Astrophysics. 659: A55. arXiv:2201.11120. doi:10.1051/0004-6361/202142455. S2CID 246285597.
  17. ^ Harrington, J.D.; Weaver, Donna; Villard, Ray (December 31, 2013). "Release 13-383 – NASA's Hubble Sees Cloudy Super-Worlds With Chance for More Clouds". NASA. Retrieved January 1, 2014.
  18. ^ Moses, Julianne (January 1, 2014). "Extrasolar planets: Cloudy with a chance of dustballs". Nature. 505 (7481): 31–32. Bibcode:2014Natur.505...31M. doi:10.1038/505031a. PMID 24380949. S2CID 4408861.
  19. ^ Knutson, Heather; et al. (January 1, 2014). "A featureless transmission spectrum for the Neptune-mass exoplanet GJ 436b". Nature. 505 (7481): 66–68. arXiv:1401.3350. Bibcode:2014Natur.505...66K. doi:10.1038/nature12887. PMID 24380953. S2CID 4454617.
  20. ^ Kreidberg, Laura; et al. (January 1, 2014). "Clouds in the atmosphere of the super-Earth exoplanet GJ 1214 b". Nature. 505 (7481): 69–72. arXiv:1401.0022. Bibcode:2014Natur.505...69K. doi:10.1038/nature12888. PMID 24380954. S2CID 4447642.
  21. ^ Schlawin, Everett; Ohno, Kazumasa; Bell, Taylor J.; Murphy, Matthew M.; Welbanks, Luis; Beatty, Thomas G.; Greene, Thomas P.; Fortney, Jonathan J.; Parmentier, Vivien (2024-10-14), Possible Carbon Dioxide Above the Thick Aerosols of GJ 1214 b, arXiv:2410.10183, retrieved 2025-01-16
  22. ^ a b Seager, S.; Kuchner, M.; Hier-Majumder, C.A.; Militzer, B. (2007). "Mass–radius relationships for solid exoplanets". The Astrophysical Journal. 669 (2): 1279–1297. arXiv:0707.2895. Bibcode:2007ApJ...669.1279S. doi:10.1086/521346. S2CID 8369390.
  23. ^ Ohno, Kazumasa; Schlawin, Everett; Bell, Taylor J.; Murphy, Matthew M.; Beatty, Thomas G.; Welbanks, Luis; Greene, Thomas P.; Fortney, Jonathan J.; Parmentier, Vivien; Edelman, Isaac R.; Mehta, Nishil; Rieke, Marcia J. (2025-01-14). "A Possible Metal-dominated Atmosphere below the Thick Aerosols of GJ 1214 b Suggested by Its JWST Panchromatic Transmission Spectrum". The Astrophysical Journal Letters. 979 (1): L7. doi:10.3847/2041-8213/ada02c. ISSN 2041-8205.
  24. ^ "Spectra from a carbon dioxide world: Astronomers unlock the atmospheric secrets of a 'new class of planet' | University of Arizona News". news.arizona.edu. Retrieved 2025-01-27.

Media related to GJ 1214 b at Wikimedia Commons

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