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Revision as of 11:55, 17 August 2020 edit103.5.1.130 (talk) Recalculated the Celsius temperatue of Proxima b temperature to be more accurate with the Kelvin reading.Tags: Visual edit Mobile edit Mobile web edit← Previous edit Revision as of 12:20, 17 August 2020 edit undo103.5.1.130 (talk) Fixed TemperatureTags: Manual revert Visual edit Mobile edit Mobile web editNext edit →
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! |'''{{abbr|D|Distance from the Sun in lightyears}}''' ! |'''{{abbr|D|Distance from the Sun in lightyears}}'''
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| ]||]||≥1.27 || ~1.1|| || {{free|292 K <br/>18.85°C}} || 0.05||<0.35 || <ref name="nature_paper">{{cite journal|last1=Anglada-Escudé|first1=Guillem|last2=Amado|first2=Pedro J.|last3=Barnes|first3=John|last4=Berdiñas|first4=Zaira M.|last5=Butler|first5=R. Paul|last6=Coleman|first6=Gavin A. L.|last7=de la Cueva|first7=Ignacio|last8=Dreizler|first8=Stefan|last9=Endl|first9=Michael|last10=Giesers|first10=Benjamin|last11=Jeffers|first11=Sandra V.|last12=Jenkins|first12=James S.|last13=Jones|first13=Hugh R. A.|last14=Kiraga|first14=Marcin|last15=Kürster|first15=Martin|last16=López-González|first16=Marίa J.|last17=Marvin|first17=Christopher J.|last18=Morales|first18=Nicolás|last19=Morin|first19=Julien|last20=Nelson|first20=Richard P.|last21=Ortiz|first21=José L.|last22=Ofir|first22=Aviv|last23=Paardekooper|first23=Sijme-Jan|last24=Reiners|first24=Ansgar|last25=Rodríguez|first25=Eloy|last26=Rodrίguez-López|first26=Cristina|last27=Sarmiento|first27=Luis F.|last28=Strachan|first28=John P.|last29=Tsapras|first29=Yiannis|last30=Tuomi|first30=Mikko|last31=Zechmeister|first31=Mathias|title=A terrestrial planet candidate in a temperate orbit around Proxima Centauri|journal=Nature|date=25 August 2016|volume=536|issue=7617|pages=437–440|arxiv=1609.03449 |doi=10.1038/nature19106|language=en|issn=0028-0836|pmid=27558064|bibcode = 2016Natur.536..437A }}</ref>||4.22 | ]||]||≥1.27 || ~1.1|| || {{free|292 K <br/>19°C}} || 0.05||<0.35 || <ref name="nature_paper">{{cite journal|last1=Anglada-Escudé|first1=Guillem|last2=Amado|first2=Pedro J.|last3=Barnes|first3=John|last4=Berdiñas|first4=Zaira M.|last5=Butler|first5=R. Paul|last6=Coleman|first6=Gavin A. L.|last7=de la Cueva|first7=Ignacio|last8=Dreizler|first8=Stefan|last9=Endl|first9=Michael|last10=Giesers|first10=Benjamin|last11=Jeffers|first11=Sandra V.|last12=Jenkins|first12=James S.|last13=Jones|first13=Hugh R. A.|last14=Kiraga|first14=Marcin|last15=Kürster|first15=Martin|last16=López-González|first16=Marίa J.|last17=Marvin|first17=Christopher J.|last18=Morales|first18=Nicolás|last19=Morin|first19=Julien|last20=Nelson|first20=Richard P.|last21=Ortiz|first21=José L.|last22=Ofir|first22=Aviv|last23=Paardekooper|first23=Sijme-Jan|last24=Reiners|first24=Ansgar|last25=Rodríguez|first25=Eloy|last26=Rodrίguez-López|first26=Cristina|last27=Sarmiento|first27=Luis F.|last28=Strachan|first28=John P.|last29=Tsapras|first29=Yiannis|last30=Tuomi|first30=Mikko|last31=Zechmeister|first31=Mathias|title=A terrestrial planet candidate in a temperate orbit around Proxima Centauri|journal=Nature|date=25 August 2016|volume=536|issue=7617|pages=437–440|arxiv=1609.03449 |doi=10.1038/nature19106|language=en|issn=0028-0836|pmid=27558064|bibcode = 2016Natur.536..437A }}</ref>||4.22
|- |-
| ]||||~7 || || || {{free|39 K<br/>-234&nbsp;°C}}<ref name="ProximaCSource1">{{cite news |last1=Wall |first1=Mike |date=12 April 2019 |title=Possible 2nd Planet Spotted Around Proxima Centauri |url=https://www.space.com/proxima-centauri-possible-second-exoplanet.html |website=Space.com |accessdate=22 July 2020}}</ref> || ~1.489||~0.04 || ||4.22 | ]||||~7 || || || {{free|39 K<br/>-234&nbsp;°C}}<ref name="ProximaCSource1">{{cite news |last1=Wall |first1=Mike |date=12 April 2019 |title=Possible 2nd Planet Spotted Around Proxima Centauri |url=https://www.space.com/proxima-centauri-possible-second-exoplanet.html |website=Space.com |accessdate=22 July 2020}}</ref> || ~1.489||~0.04 || ||4.22

Revision as of 12:20, 17 August 2020

Misplaced Pages list article

This list of nearest terrestrial exoplanet candidates contains possible terrestrial ("rocky") exoplanets spaced at a distance of up to 50 light-years from our Solar System, ordered by increasing distance.

They may be composed primarily of silicate rocks and/or metals. Within the Solar System, the terrestrial planets are the inner planets closest to the Sun.

Exoplanets discovered (incomplete)

This list is incomplete, currently containing 34 exoplanets, 11 of which probably lie inside their star's habitable zone.

There are roughly 2,000 stars at a distance of up to 50 light-years from our solar system (64 of them are yellow-orange "G" stars like our sun). As many as 15% of them can have Earth-sized planets in the habitable zones.

On November 4, 2013, astronomers reported, based on Kepler space mission data, that there could be as many as 40 billion Earth-sized planets orbiting in the habitable zones of Sun-like stars and red dwarf stars within the Milky Way galaxy. Eleven billion of these estimated planets may be orbiting Sun-like stars. The nearest such planet was then as close as 12 light-years away but (see below) is now estimated slightly above four light-years away.

On August 24, 2016, astronomers announced the discovery of a rocky planet in the habitable zone of Proxima Centauri, the closest star to Earth (not counting the Sun). Called Proxima b, the planet is 1.3 times the mass of Earth and has an orbital period of roughly 11.2 Earth days. However, Proxima Centauri's classification as a red dwarf casts doubts on the habitability of any exoplanets in its orbit due to low stellar flux, high probability of tidal locking, small circumstellar habitable zones and high stellar variation. Another likely candidate is Alpha Centauri, Earth's nearest Sun-like star system 4.37 light-years away. Estimates place the probability of finding a habitable planet around Alpha Centauri A or B at roughly 75%. Alpha Centauri is the target of several exoplanet-finding missions, including Breakthrough Starshot and Mission Centaur, the latter of which is chronicled in the 2016 documentary film The Search for Earth Proxima.

Table

Name Image (artist's concept) M R g Ts a e D
Proxima Centauri b
≥1.27 ~1.1 292 K
19°C
0.05 <0.35 4.22
Proxima Centauri c ~7 39 K
-234 °C
~1.489 ~0.04 4.22
Barnard's Star b
≥3.23 105 K
-168.15 °C
0.404 0.32 5.958
Ross 128 b
≥1.40 213–301 K
11.03
Luyten b ≥2.89 ≥1.35 259 K
-14 °C
0.091 0.10 12.20
Wolf 1061b ≥1.36 ≥1.44 13.8
Wolf 1061c ≥4.3 ≥1.64 13.8
Wolf 1061d ≥5.21 ≥2.04 13.8
Gliese 876 d 6.8 650 K
377 °C
0.021 0.21 15
Gliese 682 b ≥2

16
Gliese 832 c ≥5.4 251 K
-22 °C
0.162 0.03 16.16
82 G. Eridani b ≥2.7 660 K
387 °C
0.1207 0 19.71
82 G. Eridani c ≥2.4 508 K
235 °C
0.2036 0 19.71
82 G. Eridani d ≥4.8 388 K
115 °C
0.3499 0 19.71
Gliese 581 e ≥1.7 0.029 0 20
Gliese 581 c ≥5.6 0.072 0 20
Gliese 581 d ≥5.6 2.34 1.27 233 K
-41 °C
0.218 0 20
HD 219134 b 4.5 1.6 700 K
427 °C
21
Gliese 667 Cb 6.30 1.44 445 K

172 °C

0.05 0.09 22
Gliese 667 Cc 3.8 1.32 302 K
29 °C
0.13 0.34 22
61 Virginis b ≥5.1 0.050 0.12 28
HD 85512 b ≥3.6 1.74 1.33 351 K
78 °C
0.26 0.11 36
GJ 180 b ≥2.3 312 K
39 °C
38
TRAPPIST-1b 39.5
TRAPPIST-1c 39.5
TRAPPIST-1d 282.1 K
9 °C
39.5
TRAPPIST-1e 246.1 K
-27.1 °C
39.5
TRAPPIST-1f 219 K
-54 °C
39.5
TRAPPIST-1g 198.6 K
-75 °C
39.5
TRAPPIST-1h 169 K
-104 °C
39.5
55 Cancri e
(Janssen)
8.6 0.016 0.17 40
HD 40307 b ≥4.2 0.047 0.2 42
HD 40307 c ≥6.8 0.081 0.06 42
HD 40307 d
≥9.2 0.134 0.07 42
HD 40307 e ≥3.5 0.1886 0.15 42
HD 40307 f ≥5.2 385 K
112 °C
0.247 0.02 42
HD 40307 g ≥7.1 284 K
11 °C
0.600 0.29 42

Note: There is no scientific consensus about terrestrial composition of most of the planets in the list. Sources in the "Main source" column confirm the possibility of terrestrial composition.

In September 2012, the discovery of two planets orbiting Gliese 163 was announced. One of the planets, Gliese 163 c, about 6.9 times the mass of Earth and somewhat hotter, was considered to be within the habitable zone, but is probably not terrestrial. In May 2016, the finding of three Earth-like planets of ultracool dwarf TRAPPIST-1 has been released.

Statistics

Distance from the Solar System
Distance Lying within
the habitable zone
All
< 10 light-years 0 (2?) 2 systems
< 20 light-years 6 15
< 30 light-years 8 22
< 40 light-years 10 24
< 50 light-years 11 31

Note: in most cases the composition of the atmosphere and atmosphere pressure of exoplanets are unknown, so surface temperatures are estimates based on computer models and expert opinions.

See also

References

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  14. Wall, Mike (12 April 2019). "Possible 2nd Planet Spotted Around Proxima Centauri". Space.com. Retrieved 22 July 2020.
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  20. http://www.hpcf.upr.edu/~abel/phl/tuomi/hec_orbit_GJ_682_b.png
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  26. ^ The Habitable Exoplanets Catalog. The values are just the best estimates and are subject to change.
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  31. Vogt, Steven (2009). \"A Super-Earth and two Neptunes Orbiting the Nearby Sun-like star 61 Virginis
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External links

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