Tech/Science

New Mini-Neptune Exoplanet Discovered Orbiting Nearby Star

An international team of astronomers has made a groundbreaking discovery, identifying a new mini-Neptune exoplanet orbiting a nearby star. This newfound alien world, designated TOI-4438 b, is about 2.5 times larger than Earth. The discovery was detailed in a paper published on the pre-print server arXiv.

NASA’s Transiting Exoplanet Survey Satellite (TESS) has identified over 7,000 candidate exoplanets, of which 417 have been confirmed so far. Since its launch in April 2018, the satellite has been conducting a survey of about 200,000 of the brightest stars near the sun with the aim of searching for transiting exoplanets—ranging from small, rocky worlds to gaseous giants.

The so-called mini-Neptunes are exoplanets with radii between 1.8 and 4 Earth radii. In general, they are common around M-type dwarf stars and are assumed to host hydrogen-dominated atmospheres.

Now, a group of astronomers led by Elisa Goffo of the University of Turin in Italy has detected a new planet of this type. They report that a transit signal was identified in the light curve of TOI-4438 (or G 182-34)—an M dwarf of spectral type M3.5 V, located some 98 light years away. The planetary nature of this signal was confirmed by follow-up spectroscopic and photometric observations.

TOI-4438 b has a radius of 2.52 Earth radii, while its mass is approximately 5.4 Earth masses, which yields a bulk density at a level of 1.85 g/cm3. The planet orbits its host every 7.44 days, at a distance of about 0.05 AU from it. The equilibrium temperature of TOI-4438 b is estimated to be 435 K.

Based on the collected data, the astronomers conclude that TOI-4438 b is a volatile-rich mini-Neptune with a relatively high minimum water mass fraction of 46%. They add that the planet very likely has a hydrogen/helium atmosphere, mixed with molecules such as water, carbon dioxide, and methane.

Given that TOI-4438 b presents a high transmission spectroscopy metric, it is among the most suitable targets for atmospheric characterization with the James Webb Space Telescope in the future.

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