Bibcode
Sanz-Forcada, J.; Ribas, I.; Micela, G.; Pollock, A.; Garcìa-Àlvarez, D.; Solano, E.; Eiroa, C.
Bibliographical reference
16th Cambridge Workshop on Cool Stars, Stellar Systems, and the Sun. ASP Conference Series, Vol. 448, proceedings of a conference held August 28- September 2, 2010 at the University of Washington, Seattle, Washington. Edited by Christopher M. Johns-Krull, Matthew K. Browning, and Andrew A. West. San Francisco: Astronomical Society of the Pacific, 2012., p.1247
Advertised on:
12
2011
Citations
0
Refereed citations
0
Description
According to theory, high energy emission from the coronae of cool stars
can severely erode the atmosphere of orbiting planets. To test the long
term effects of the erosion we study a large sample of planet-hosting
stars observed in X-rays. The results reveal that massive planets
(Mpsin i >1.5 MJ) may survive only if exposed
to low accumulated coronal radiation. The planet HD 209458 b might have
lost more than 1 MJ already, and other cases, like τ Boo
b, could be losing mass at a rate of 3.4 M⊕/Gyr. The
strongest erosive effects would take place during the first stages of
the stellar life, when the faster rotation generates more energetic
coronal radiation. The planets with higher density seem to resist better
the radiation effects, as foreseen by models. Current models need to be
improved to explain the observed distribution of planetary masses with
the coronal radiation received.