A. Lecavelier des Etangs, A. Vidal-Madjar, J. -M. Desert
Published 2009-02-23Version 1
Using numerical simulation, Holmstrom et al. (2008) proposed a plausible alternative explanation of the observed Lyman-alpha absorption that was seen during the transit of HD 209458b (Vidal-Madjar et al. 2003). They conclude that radiation pressure alone cannot explain the observations and that a peculiar stellar wind is needed. Here we show that radiation pressure alone can in fact produce the observed high-velocity hydrogen atoms. We also emphasize that even if the stellar wind is responsible for the observed hydrogen, to have a sufficient number of atoms for charge exchange with stellar wind, the energetic neutral atom (ENA) model also needs a significant escape from the planet atmosphere of similar amplitude as quoted in Vidal-Madjar et al.(2003).
Comments: Brief Communications Arising, Nature 456, E1 (2008) (2008Natur.456....1L)
Effects of Radiation Pressure on the Evaporative Wind of HD 209458b
Bound circumplanetary orbits under the influence of radiation pressure: Application to dust in directly imaged exoplanet systems
Three-Dimensional Atmospheric Circulation Models of HD 189733b and HD 209458b with Consistent Magnetic Drag and Ohmic Dissipation
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