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Survival in the Neptune desert: LTT 9779 b kept its atmosphere thanks to an unusually X-ray faint host star

Jorge Fernández Fernández, P. J. Wheatley, George W. King, J. S. Jenkins

2023Monthly Notices of the Royal Astronomical Society14 citationsDOIOpen Access PDF

Abstract

ABSTRACT The Neptunian desert is a region in period-radius parameter space with very few Neptune-sized planets at short orbital periods. Amongst these, LTT 9779 b is the only known Neptune with a period shorter than 1 d to retain a significant H–He atmosphere. If the Neptune desert is the result of X-ray/EUV-driven photoevaporation, it is surprising that the atmosphere of LTT 9779 b survived the intense bombardment of high-energy photons from its young host star. However, the star has low measured rotational broadening, which points to the possibility of an anomalously slow spin period and hence a faint X-ray emission history that may have failed to evaporate the planet’s atmosphere. We observed LTT 9779 with XMM-Newton and measured an upper limit for its X-ray luminosity that is a factor of 15 lower than expected for its age. We also simulated the evaporation past of LTT 9779 b and found that the survival of its atmosphere to the present day is consistent with an unusually faint XUV irradiation history that matches both the X-ray and rotation velocity measurements. We conclude that the anomalously low X-ray irradiation of the one Neptune seen to survive in Neptunian desert supports the interpretation of the desert as primarily a result of photoevaporation.

Topics & Concepts

PhysicsNeptuneAstrophysicsAtmosphere (unit)PhotoevaporationAstronomyPlanetLuminosityRADIUSProtoplanetary diskGalaxyThermodynamicsComputer scienceComputer securityAstrophysical Phenomena and ObservationsHigh-pressure geophysics and materialsStellar, planetary, and galactic studies
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