Three 'super-Earths' orbiting a cool dwarf star discovered

Three "super-Earths” orbiting a cool dwarf star discovered
Phase-folded light curves of LP415-17 corresponding to planets b (top), c (middle), and d (bottom). Credit: Alonso et al., 2018.

Using NASA's prolonged Kepler mission, known as K2, astronomers have found three new "super-Earth" exoplanets. The newly detected alien worlds orbit the cool dwarf star designated LP415-17. The finding is reported January 18 in a paper published on the arXiv pre-print server.

Kepler has discovered more than 2,300 exoplanets to date. Although the spacecraft lost its two reaction wheels in 2013, it was repurposed as K2 to perform high-precision photometry of selected fields in the ecliptic. Since then, the revived Kepler telescope has found nearly 200 extrasolar worlds.

Now, a team of researchers led by Enrique Diez Alonso of the University of Oviedo, Spain, reports the finding of three new exoplanets from the data acquired by the K2 mission. The Kepler spacecraft observed the star LP415-17 between March and May 2017, during its Campaign 13. These observations allowed the team to discover that this star is orbited by three exoworlds. The newly detected were classified as super-Earths, as they have masses higher than Earth's but lower than that of solar system's gas giants.

"We present the detection of three super-Earths transiting the cool star LP415-17, monitored by K2 mission in its 13th campaign," the researchers wrote in the paper.

Located some 267 light years away from the Earth, LP415-17 is a star of spectral type K with a radius of about 0.58 and approximately 35 less massive than our sun. It has an effective temperature of 4,258 K and was therefore classified as a cool dwarf.

Alonso's team identified a transit signal in the light curve of LP415-17. The planetary nature of this signal was later confirmed by follow-up observations with the WIYN 3.5-Meter Telescope at Kitt Peak National Observatory in Arizona.

According to the study, LP415-17 b, with a radius of about 1.8 Earth radii, is the smallest planet of the newly discovered trio. It has a mass of 4.7 Earth masses and orbits its parent star every 6.34 days at a distance of 0.056 AU from the host. The planet has an equilibrium temperature of 708 K.

LP415-17 c is the largest and most massive planet in the system – it is 6.5 times as massive as the Earth and has a radius of approximately 2.6 Earth radii. At a distance of nearly 0.1 AU from the host, it has an equilibrium temperature of 583 K and an orbital period of 13.85 days.

LP415-17 d has a radius of 1.9 Earth radii and is almost five times as massive as our planet. The exoworld has a semi-major axis of about 0.19 AU and it takes it 40.7 days to fully orbit its host star. The planet's equilibrium temperature is 381 K.

The researchers concluded that the newly confirmed planets could advance our understanding of formation and dynamical evolution of super-Earth systems in the rocky – gaseous threshold. LP415-17 and its planets could provide important hints about the nature of such systems, including their atmospheres and composition.

More information: A system of three transiting super-Earths in a cool dwarf star, arXiv:1801.06249 [astro-ph.EP] arxiv.org/abs/1801.06249

Abstract
We present the detection of three super-Earths transiting the cool star LP415-17, monitored by K2 mission in its 13th campaign. High resolution spectra obtained with HARPS-N/TNG showed that the star is a mid-late K dwarf. Using spectral synthesis models we infer its effective temperature, surface gravity and metallicity and subse- quently determined from evolutionary models a stellar radius of 0.58 R Sun. The planets have radii of 1.8, 2.6 and 1.9 R Earth and orbital periods of 6.34, 13.85 and 40.72 days. High resolution images discard any significant contamination by an intervening star in the line of sight. The orbit of the furthest planet has radius of 0.18 AU, close to the inner edge of the habitable zone. The system is suitable to improve our understanding of formation and dynamical evolution of super-Earth systems in the rocky - gaseous threshold, their atmospheres, internal structure, composition and interactions with host stars.

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