At a distance of 144 light-years out in the constellation of Leo lies the cool M-type red dwarf star K2-3 which has about 6% of the Sun's luminosity and to date is known to host at least three planets, the smallest and outermost of which, planet d, near or inside the habitable zone, possibly supporting liquid water, or resembling the planet Mars. Planet d measures about 1.65 terran masses and is about 1.65x in diameter. Orbiting at a distance of 0.21 AU with a period of 45 days, it receives about 1.5x the stellar insulation that Earth receives and has an estimated equilibrium temperature of 9°C. Given its density (and gravity), d may showcase a rocky solid surface indicating that it is a candidate for being an Iron planet. Due to its proximity to the star, d, could be tidally locked with different harsh and hostile hemispheres, irrespective of whether it holds an atmosphere or not. The star has a mass of 0.60x solar and a radius of 0.55x solar, a relatively large red dwarf, about a billion years old. The other two known inner exoplanets are 2.1x and 1.7x the size of Earth and expected to be scorched by heat and radiation.
Image credit: NASA/JPL-Caltech/R. Hurt (IPAC), modified
Planet Designation | Title | Constellation | Distance | SMA | Period | Mass | Radius | Year | |
---|---|---|---|---|---|---|---|---|---|
1 | Proxima b | Nearest Known Exoplanet | Centaurus | 4.24ly | 0.04856AU | 11.1868d | 1.27⊕ | 2016 | |
2 | Barnard b | Second Closest Known Exoplanet | Ophiuchus | 5.9ly | 0.02294AU | 3.1533d | 3.23⊕ | 2024 | |
3 | Epsilon Eridani b | Asteroid Belts and Controversal Planets | Eridanus | 10.48ly | 3.53AU | 2671d | 245⊕ | 2000 | |
4 | Ross 128 b | Third Closest Known Exoplanet | Virgo | 11.03ly | 0.0496AU | 9.8658d | 1.35⊕ | 2017 | |
5 | Tau Ceti e | Planet Needing Confirmation | Cetus | 11.91ly | 0.538AU | 162.87d | 3.29⊕ | 2017 | |
6 | Luyten's Star b | Only 1.2 Light-Years Away from Procyon | Canis Minor | 12.2ly | 0.091101AU | 18.6498d | 2.89⊕ | 2017 | |
7 | Kapteyn's Star c | Oldest-known Cold Exoplanet | Pictor | 12.76ly | 0.311AU | 121.54d | 4.8⊕ | 2014 | |
8 | Wolf 1061 c | Temperate Super-Earth or Super-Mars | Ophiuchus | 14.04ly | 0.089AU | 17.8719d | 3.41⊕ | 2015 | |
9 | Gliese 3323 b | Little Known in Habitable Zone | Eridanus | 17.54ly | 0.03282AU | 5.3636d | 2.02⊕ | 2017 | |
10 | LTT 1445A b | Planet in Triple Red Dwarf System | Eridanus | 22.5ly | 0.022AU | 5.35876d | 2.2⊕ | 1.18⊕ | 2019 |
11 | Gliese 667C c | Earth-like Planet in Triple Star System | Scorpius | 23.6ly | 0.125AU | 28.14d | 3.71⊕ | 2013 | |
12 | Gliese 1132 b | Heat Planet with Atmosphere | Vela | 39.3ly | 0.0157AU | 1.62893d | 1.66⊕ | 1.19⊕ | 2015 |
13 | Trappist-1 d | Small but Most Earth-like Known Planet | Aquarius | 39.5ly | 0.02227AU | 4.04922d | 0.297⊕ | 0.78⊕ | 2016 |
14 | LHS 1140 b | A Massive Super-Earth Inside Habitable Zone | Cetus | 40.67ly | 0.0946AU | 24.7372d | 6.64⊕ | 1.72⊕ | 2017 |
15 | Gliese 143 b | A Huge Neptunian Around a K-Star | Reticulum | 53.2ly | 0.1915AU | 35.6125d | 30.63⊕ | 2.61⊕ | 2019 |
16 | TOI-270 b | Nearby M-Dwarf Planets | Dorado | 73.23ly | 0.03197AU | 3.36015d | 1.9⊕ | 1.21⊕ | 2019 |
17 | Gliese 3470 b | Evaporating Planet | Cancer | 95.5ly | 0.0355AU | 3.33665d | 13.4⊕ | 4.57⊕ | 2012 |
18 | K2-3 b | Super-Earths Trio in Leo | Leo | 143.9ly | 0.0747AU | 10.0547d | 2.7⊕ | 2.07⊕ | 2015 |
19 | K2-288B b | Detected by Citizen Scientists | Taurus | 226ly | 0.164AU | 31.3935d | 4⊕ | 1.90⊕ | 2018 |
20 | Kepler-186 f | Earth-sized Cold Kepler Planet | Cygnus | 582ly | 0.432AU | 129.944d | 1.4⊕ | 1.16⊕ | 2014 |
Most of the stars introduced on this page are 'Red Dwarfs'. Actually they represent the most common type of stars. About 73% of all stars in the Milky Way galaxy are dim red dwarfs, featuring less than half the solar surface temperature and low luminosity, but in turn high stellar activity, such as flares and hazardous radiation that can hit red dwarf planets hard potentially prohibiting formation of known lifeforms.
Given its minute energy emission, the habitable zone (HBZ, an imaginary ring where temperatures support liquid water) of a red dwarf is situated near the star, as are planets orbiting inside this zone. The gravitational pull of the star can tidally lock a nearby planet which then faces one hemisphere to the star while the other is enshrouded in darkness - like the Earth moon - the axial rotation period equals the orbital period.
Some densely populated systems, such as TRAPPIST-1, have several planets orbiting in close proximity in that an observer on a planet could see other planets larger than our moon in the sky. Also, the planet may have one or multiple moons themselves. In any case a truly impressive spectacle with fast changes.
Due to their low visual luminosity no known red dwarf is visible by the naked eye, not even the nearest such as Proxima Centauri or the solitary Barnard's Star. Others, such as Gliese 667, are triple star systems but anywhere near visual magnitude
Image Credit: NASA/ESA/STScl