The relative role of EUV radiation and X-rays in the heating of hydrogen-rich exoplanet atmospheres
Open Access
- 30 January 2009
- journal article
- research article
- Published by EDP Sciences in Astronomy & Astrophysics
- Vol. 496 (3), 863-868
- https://doi.org/10.1051/0004-6361/200809955
Abstract
Aims. We study the relative role of EUV and X-ray radiation in the heating of hydrogen-rich planet atmospheres with different composition and electron content.Methods. An accurate photo-ionization model has been used to follow the primary photo-electron energy deposition throughout the atmosphere.Results. Heating rates and efficiencies have been computed, together with column density cut-offs at which photons of given energies stop their heating production inside the atmosphere. Assuming 100 eV as the energy borderline between the extreme ultraviolet spectral range and X-rays we find that when the absorbing hydrogen column density is higher than 1020 cm-2 only X-rays can heat the gas. Extreme ultraviolet photons heat the upper atmospheric layers.Conclusions. Using emission spectra from a sample of solar-type stars of different ages representative of the Sun's main sequence lifetime, we have derived the corresponding heating rates. We find that the existence of an energetic cross-over in atmospheric heating is present for all stars in the sample.Keywords
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