Climate change in hell: Long-term variation in transits of the evaporating planet K2-22b

Gaidos, E.; Parviainen, H.; Esparza-Borges, E.; Fukui, A.; Isogai, K.; Kawauchi, K.; de Leon, J.; Mori, M.; Murgas, F.; Narita, N.; Palle, E.; Watanabe, N.
Referencia bibliográfica

Astronomy and Astrophysics

Fecha de publicación:
8
2024
Número de autores
12
Número de autores del IAC
6
Número de citas
0
Número de citas referidas
0
Descripción
Context. Rocky planets on ultra-short period orbits can have surface magma oceans and rock-vapour atmospheres in which dust can condense. Observations of that dust can inform us about the composition and surface conditions on these objects.
Aims: We constrained the properties and long-term (decade) behaviour of the transiting dust cloud from the evaporating planet K2-22b. Methods.We observed K2-22b around 40 predicted transits with MuSCAT ground-based multi-optical channel imagers, and complemented these data with long-term monitoring by the ground-based ATLAS (2018-2024) and space-based TESS (2021-2023) surveys.
Results: We detected signals during 7 transits, none of which showed significant wavelength dependence. The expected number of MuSCAT-detected transits is ≥22, indicating a decline in mean transit depth since the K2 discovery observations in 2014.
Conclusions: The lack of a significant wavelength dependence indicates that dust grains are large or the cloud is optically thick. Long-term trends of depth could be due to a magnetic cycle on the host star or to overturn of the planet's dayside surface magma ocean. The possibility that K2-22b is disappearing altogether is ruled out by the stability of the transit ephemeris against non-gravitational forces, which constrains the mass to be at least comparable to Ceres.