Discovery[1] | |
---|---|
Discovered by | MEarth-South Array Team |
Discovery site | Chile |
Discovery date | May 10, 2015 (announced)[2] November 12, 2015 (confirmed)[3] |
Transit | |
Orbital characteristics[4][5] | |
0.01570±0.00013 AU | |
Eccentricity | 0.0118+0.047 −0.0099 |
1.62892911+0.00000029 −0.00000030 d | |
Inclination | 86.58°±0.63°[6] |
Semi-amplitude | 2.98±0.30 m/s |
Star | GJ 1132 |
Physical characteristics[7] | |
1.130±0.056 R🜨 | |
Mass | 1.66±0.23 M🜨 |
Mean density | 6.3±1.3 g/cm3 |
12.9±2.2 m/s2 | |
13.6±1.0 km/s | |
Albedo | 0.19+0.12 −0.15[4] |
Temperature | 583.8+11 −8.5 K (310.6 °C; 591.2 °F, equilibrium)[4] 709±31 K (436 °C; 817 °F, day side)[4] |
Atmosphere | |
Composition by volume | None or extremely thin[4] |
GJ 1132 b (also known as Gliese 1132 b) is an exoplanet orbiting GJ 1132, a red dwarf star 41 light-years (13 parsecs) from Earth,[1] in the constellation Vela. The planet is considered uninhabitable but was thought to be cool enough to possess an atmosphere.[2] GJ 1132 b was discovered by the MEarth-South array in Chile.[8]
It had been called "one of the most important planets ever discovered beyond the Solar System": Due to its relative proximity to Earth, telescopes should have been able to determine the composition of its atmosphere, the speed of its winds and the color of its sunsets,[9][10][11] if an atmosphere was present. This is due in part to the small diameter of its parent star (20% that of the Sun), which increases the effect on the star's light of its transits. The planet's diameter is approximately 20% larger than that of the Earth[1] and its mass is estimated at 1.6 times that of Earth,[2] implying that it has an Earth-like rocky composition.[12] GJ 1132 b orbits its star every 1.6 days at a distance of 1.4 million miles (2.24 million kilometres).[8]
The planet receives 19 times more stellar radiation than Earth.[1] The equilibrium temperature is estimated at 529 K (256 °C; 493 °F) for an Earth-like albedo, or 409 K (136 °C; 277 °F) for a Venus-like albedo. The planet is likely to be hotter than Venus, as higher temperatures likely prevail at the surface if the planet has an atmosphere.[12]
Berta-Thompson2015
was invoked but never defined (see the help page).Xue2024
was invoked but never defined (see the help page).Kokori2023
was invoked but never defined (see the help page).Southworth2017
was invoked but never defined (see the help page).Bonfils_et_al_2018
was invoked but never defined (see the help page).