GJ 1061

Template:Short description Template:Sky Template:Starbox begin Template:Starbox image Template:Starbox observe Template:Starbox character Template:Starbox astrometry Template:Starbox detail = 4.83</math>, the visual luminosity of GJ 1061 can therefore be calculated: <math>\scriptstyle \frac{L_{V_{\ast}}}{L_{V_{\odot}}} = 10^{0.4\left(M_{V_{\odot}} - M_{V_{\ast}}\right)} = 6.73\times10^{-5}</math>}}

| temperature = Template:Val<ref name=Pineda2021/>
| metal_fe    = Template:Val<ref name=Pineda2021/>
| rotation    = Template:Val<ref name="Dreizler2025"/>
| rotational_velocity    = <2.5<ref name="Dreizler2025"/>
| age_gyr     =  Template:Val<ref name=angladaescude2019/>

}} Template:Starbox catalog Template:Starbox reference Template:Starbox end

GJ 1061 is a red dwarf star located Template:Convert from Earth in the southern constellation of Horologium. Even though it is a relatively nearby star, it has an apparent visual magnitude of about 13,<ref name="Henry1997"/> so it can only be seen with at least a moderately-sized telescope.

This star is a tiny, dim, red dwarf, close to the lower mass limit. It has an estimated mass of about 12.5% that of the Sun and is only about 0.2% as luminous.<ref name="Pineda2021"/> It is an old, slowly-rotating star, with an age of at least 7 billion years and a rotation period of about 125 days.<ref name="Dreizler2025"/> The star displays no significant infrared excess due to circumstellar dust.<ref name=Avenhaus2012/> It hosts a system of three known exoplanets.<ref name="Dreizler2025"/>

The proper motion of GJ 1061 has been known since 1974, but it was estimated to be further away: approximately Template:Convert distant based upon an estimated parallax of 0.130″. The RECONS accurately determined its distance in 1997. At that time, it was the 20th-nearest known star system to the Sun. The discovery team noted that many more stars like this are likely to be discovered nearby.<ref name="Henry1997"/>

On August 13, 2019, a system of three planets was announced orbiting the star GJ 1061 by the Red Dots project for detecting terrestrial planets around nearby red dwarf stars.<ref name=angladaescude2019/> Since the planets were detected by the radial velocity method, initially only their minimum masses were known. Further observations allowed the true masses to be determined based on gravitational interactions between the planets.Template:Efn All three planets are less than twice the mass of Earth, and so are likely to be rocky planets.<ref name="Dreizler2025"/>

The planet GJ 1061 d orbits in the conservative habitable zone of its star, and the planet GJ 1061 c orbits near the inner edge of the habitable zone.<ref name=angladaescude2019/> Template:As of, they are the third- and fourth-nearest known terrestrial exoplanets in the habitable zone, after Proxima Centauri b and Ross 128 b.<ref name="Dreizler2025"/> GJ 1061 is a non-variable star that does not suffer flares, so there is a greater probability that the exoplanets still conserve their atmospheres if they had them.<ref>Template:Cite web</ref>

Template:OrbitboxPlanet begin Template:OrbitboxPlanet Template:OrbitboxPlanet Template:OrbitboxPlanet Template:Orbitbox end

GJ 1061 c is a potentially habitable exoplanet orbiting within the limits of the optimistically defined habitable zone of its red dwarf parent star.<ref name="habcat"/><ref>Template:Cite web</ref><ref name="angladaescude2019"/>

GJ 1061 c is about 81% more massive than the Earth.<ref name="Dreizler2025"/> The planet receives 35% more stellar flux than Earth and has an equilibrium temperature of Template:Convert.<ref>Template:Cite web</ref> Should the atmosphere be of a similar composition to Earth's, the average temperature of the surface would be warmer, at around Template:Convert.

GJ 1061 c orbits its parent star very closely, every 6.7 days at a distance of just 0.035 au, so it is probably tidally locked and in synchronous rotation with its star.

GJ 1061 d is a potentially habitable exoplanet largely orbiting within the limits of the conservatively defined habitable zone of its parent red dwarf star.<ref name="habcat">Template:Cite web</ref><ref>Template:Cite web</ref><ref name="angladaescude2019"/>

The exoplanet is about 67% more massive than the Earth.<ref name="Dreizler2025"/> The planet receives about 40% less stellar flux than Earth and has an estimated equilibrium temperature of Template:Convert.<ref name="habcat"/><ref name="angladaescude2019"/> The average temperature on the surface would be colder than Earth's and at around Template:Convert, provided the atmosphere is similar to that of Earth.

GJ 1061 d orbits its star every 13 days, and due to its close-in semi-major axis, it is likely that the exoplanet is tidally locked.<ref name="NASAExoplanetArchive">Template:Cite web</ref> However, if the planet's orbit is confirmed to be highly eccentric then this eccentricity could be desynchronising it, enabling the existence of non-synchronised states of equilibrium in its rotation, relative to which side of the planet is facing the star, and thereby it will experience a day/night cycle.<ref name="Auclair-Desrotour2019">Template:Cite journal</ref>

Another solution for this planet gives it a slightly shorter period of 12.4 days and a slightly smaller minimum mass of Template:Earth mass.<ref name="angladaescude2019"/>

• List of nearest stars and brown dwarfs
• Research Consortium On Nearby Stars
• List of exoplanets discovered in 2020 - GJ 1061 b, c, & d

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• SolStation.com: GJ 1061

Template:Nearest systems Template:Stars of Horologium Template:Portal bar Template:Authority control