Gómez Maqueo Chew, Yadira; Dransfield, George; Barkaoui, Khalid; Cadieux, Charles; Ducrot, Elsa; Rackham, Benjamin V.; Timmermans, Maarten; Burgasser, Adam J.; Segura, Antígona; Stassun, Keivan G.; Ziegler, Carl; Soubkiou, Ahmed; Almenara, José M.; Demory, Brice O.; Gillon, Michaël; Jenkins, Jon M.; Jofré, Ezequiel; Khandelwal, Ankit; Páez, Sebastián; Petrucci, Roberto; Parc, Loïc; Pichardo Marcano, María; Plauchu-Frayn, Isabelle; Schroffenegger, Urs; Schwarz, Reinhard; Tan, Thiam G.; Triaud, Amaury H. M. J.; Benkhaldoun, Zouhair; Bonfils, Xavier; Bouchy, François; Collins, Karen A.; Davoudi, Farzaneh; Doyon, René; Gachaoui, Mohammed; Hooton, Matthew J.; Jehin, Emmanuël; Pozuelos, Francisco J.; Scott, Matthew G.; Yalçınkaya, Selçuk; Zong Lang, Feng; Zúñiga-Fernández, Sebastián; De Medeiros, José R.; González-Hernández, Jonay I.; Santos, Nuno C. (2026)..Monthly Notices of the Royal Astronomical Society, 548(1).
This study reports the discovery and confirmation of a small, Earth-sized exoplanet (a planet outside our solar system) called TOI-1080 b, which orbits its star every ~4 days. The host star is a nearby, relatively quiet M dwarf (a small, cool type of star) located about 25.6 parsecs (~83 light-years) away. The planet was first detected by the TESS space telescope using the transit method (observing dips in starlight as the planet passes in front of the star) and confirmed with additional space- and ground-based observations.
TOI-1080 b has a radius about 1.2 times that of Earth and a moderate equilibrium temperature of around 368 K (about 95°C), placing it in a “temperate” range compared to many hotter close-in planets. Measurements of the star’s motion (radial velocity) suggest the planet’s mass is less than about 10.7 times Earth’s mass. The researchers also ruled out the presence of other nearby planets of similar size in short orbits around the same star.
Because it is relatively small, nearby, and orbits a quiet star, TOI-1080 b is an excellent candidate for further study—especially for examining its possible atmosphere using powerful telescopes like the James Webb Space Telescope (JWST). It is considered a high-priority target for ongoing programs focused on detailed studies of rocky, Earth-like worlds.
Figure 1.
FIRE spectrum of TOI-1080. The target spectrum (red) is shown alongside that of the SPEX SXD spectrum of the M3.5 V standard Luyten’s Star (GJ 273; grey). The higher spectral resolution of the FIRE spectrum gives it a more jagged appearance. Strong M-dwarf spectral features and spectral regions with strong tellurics are indicated. The figure shows the normalized flux of the planet host TOI-1080 as a function of wavelength, between 0.9 to 2.35 microns.