GJ 436b and the stellar wind interaction: simulations constraints using Ly alpha and H alpha transits

CAROLINA VILLARREAL D'ANGELO; ALINE VIDOTTO ; ALEJANDRO ESQUIVEL ; GOPAL HAZRA; ALLISON YOUNGBLOOD

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY

WILEY-BLACKWELL PUBLISHING, INC

Lugar: Londres; Año: 2020

0035-8711

The GJ 436 planetary system is an extraordinary system. The Neptune-sized planet that orbits the M3 dwarf revealed in the Ly alpha line an extended neutral hydrogen atmosphere. This material fills a comet-like tail that obscures the stellar disc for more than 10 h after the planetary transit. Here, we carry out a series of 3D radiation hydrodynamic simulations to model the interaction of the stellar wind with the escaping planetary atmosphere. With these models, we seek to reproduce the 56 % absorption found in Ly alpha transits, simultaneously with the lack of absorption in H alpha transit. Varying the stellar wind strength and the EUV stellar luminosity, we search for a set of parameters that best fit the observational data. Based on Ly alpha observations, we found a stellar wind velocity at the position of the planet to be around [250-460] km s-1 with a temperature of [3-4] × 105 K. The stellar and planetary mass-loss rates are found to be 2 × 10-15 Msun/yr and ~[6-10] × 109 g/s , respectively, for a stellar EUV luminosity of [0.8-1.6] × 1027 erg s-1. For the parameters explored in our simulations, none of our models present any significant absorption in the H alpha line in agreement with the observations.