LHS 1140
LHS 1140 is a red dwarf star in the constellation of Cetus. Based on stellar parallax measurement, it is away from the Sun. 'LHS' refers to the Luyten Half-Second Catalogue of stars with proper motions exceeding half a second of arc annually. The star is over 5 billion years old and has only about 18% the mass of the Sun and 21% of its radius.
LHS 1140's rotational period is 130 days. No flares have been observed.
Planetary system
As of October 2023, LHS 1140 is known to have two planets orbiting it. The inner planet is LHS 1140 c, a hot rocky planet; the outer planet, which was the first to be discovered, is LHS 1140 b, a water-rich super-Earth in the habitable zone.LHS 1140 c
The existence of LHS 1140 c was first proposed by Feng et al. in July 2018 and confirmed by Ment et al. in August 2018, using the transit method of detection. It has a mass about 1.9 times Earth's and a radius 1.3 times as large, giving it a density of about, consistent with a rocky composition. From eclipse observations, its dayside temperature has been measured at, consistent with a low-albedo planet with no atmosphere. The observations rule out pure CO2 atmospheres with a pressure and pure H2O atmospheres. This result is similar to other hot rocky planets around red dwarfs, such as LHS 3844 b and TRAPPIST-1b.LHS 1140 b
was discovered by the MEarth Project in 2017 using the transit method. Follow-up radial velocities were measured by the High Accuracy Radial Velocity Planet Searcher instrument to confirm the planet and measure its mass. The planet LHS 1140 b is a super-Earth in the habitable zone and transits the star every 24.7 days. This allows its atmosphere to be studied: the combination of the transiting super-Earth and the relatively small and nearby host star make this system one of the most promising known for atmosphere studies, along with the TRAPPIST-1 system. Observations by the Hubble Space Telescope in 2020 found signs of water vapor in the planet's atmosphere, but this has not been confirmed. Later observations with the James Webb Space Telescope suggest the presence of a nitrogen-rich atmosphere.LHS 1140 b was initially estimated to be about 7 times Earth's mass and about 1.4 times its radius, suggesting a dense rocky planet. Later studies in 2018 and 2020 revised the radius upwards to about 1.7 times Earth's, giving it a density of about, still consistent with a rocky composition. However, a 2023 study measuring the planet's mass and radius with greater precision found a lower mass of about 5.6 times Earth's, and a correspondingly lower density, no longer consistent with a rocky planet given the planet's size. LHS 1140 b is likely an ocean world with 9-19% of its mass composed of water; JWST observations rule out a hydrogen atmosphere, so it is not a mini-Neptune.