2020
DOI: 10.3847/1538-3881/ab579b
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Zodiacal Exoplanets in Time (ZEIT). IX. A Flat Transmission Spectrum and a Highly Eccentric Orbit for the Young Neptune K2-25b as Revealed by Spitzer

Abstract: Transiting planets in nearby young clusters offer the opportunity to study the atmospheres and dynamics of planets during their formative years. To this end, we focused on K2-25b -a close-in (P =3.48 days), Neptune-sized exoplanet orbiting a M4.5 dwarf in the 650 Myr Hyades cluster. We combined photometric observations of K2-25 covering a total of 44 transits and spanning > 2 yr, drawn from a mix of space-based telescopes (Spitzer Space Telescope and K2 ) and ground-based facilities (Las Cumbres Observatory Gl… Show more

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Cited by 33 publications
(59 citation statements)
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“…To explain the flat broadband transmission spectrum, they favored a scenario where K2-25b has a cloudy atmosphere using a predicted mass from exoplanet mass-radius relations. Although K2-25 could have a cloudy atmosphere, we show in this paper that the apparent flat broadband transmission spectrum of K2-25b could also be partially explained by the larger observed mass of K2-25b than the mass assumed in Thao et al (2020). Kain et al (2020) performed long-term photometric monitoring of K2-25 using the MEarth Observatories (Irwin et al 2015) to monitor the activity of the star and look for evidence of transit timing variations (TTVs) in the transits of K2-25b, which could be suggestive of an additional planet orbiting in the system.…”
Section: The K2-25 Systemmentioning
confidence: 58%
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“…To explain the flat broadband transmission spectrum, they favored a scenario where K2-25b has a cloudy atmosphere using a predicted mass from exoplanet mass-radius relations. Although K2-25 could have a cloudy atmosphere, we show in this paper that the apparent flat broadband transmission spectrum of K2-25b could also be partially explained by the larger observed mass of K2-25b than the mass assumed in Thao et al (2020). Kain et al (2020) performed long-term photometric monitoring of K2-25 using the MEarth Observatories (Irwin et al 2015) to monitor the activity of the star and look for evidence of transit timing variations (TTVs) in the transits of K2-25b, which could be suggestive of an additional planet orbiting in the system.…”
Section: The K2-25 Systemmentioning
confidence: 58%
“…Recently, two groups discussed additional transit follow-up observations of K2-25b. Thao et al (2020) studied the transit depth of K2-25b as a function of wavelength using photometric observations at different wavelengths from K2, the MEarth Observatories (Irwin et al 2015), and the Las Cumbres Global Telescope Network (LCOGT) in the optical and the Spitzer Telescope in the NIR and found no significant evidence of changes in transit depth as a function of wavelength. To explain the flat broadband transmission spectrum, they favored a scenario where K2-25b has a cloudy atmosphere using a predicted mass from exoplanet mass-radius relations.…”
Section: The K2-25 Systemmentioning
confidence: 99%
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“…dwarf in the 650 Myr old Hyades cluster (Mann et al 2016;Thao et al 2020). The unusually large size (3.43 R ⊕ ) of K2-25b in comparison to other planets with similar orbital periods (3.485 days) and the fact that it is orbiting a young star suggest that K2-25b could represent an early or intermittent phase of planetary evolution, where young Neptunes are in the process of losing their atmospheres (Mann et al 2016).…”
Section: Transmission Spectroscopy Metric Of All Small Planetsmentioning
confidence: 95%