Stochasticity among stable planetary orbits in double stellar systems

In the frame of the Restricted Three-Body Problem (plane elliptic case), or bital stability of fictitious planers orbiting one of the two components of a binary star system (known the mass ratio of the two stars and the eccent ricity of their orbit) is systematically explored, varying initial coordina tes and velocities of the planet. For the first 5 binaries we studied, the main result is that stable planetary orbits exist at large distance from th eir "sun"; for 3 of these binaries, some of these stable planetary orbits a re nearly circular and, among these latter; several lie inside the habitabl e zone. Moreover; extrapolating to exoplanets the known dynamics of the Sol ar System, we may suspect that a subset of these orbits could be chaotic (a nd, sometimes, chaos may be bounded). A method to study this possible chaos is to compute Lyapunov Indicators; results of a numerical simulation - ove r Solar System age - are presented here for a fictitious exoplanet orbiting eta CrB A, a planet for which the trajectory reveals bounded chaos charact eristics (during the simulation time span). (C) 1999 Academie des sciences/ Editions scientifiques et medicales Elsevier SAS.