Volume 404, Number 2, June III 2003
|Page(s)||519 - 531|
|Section||Galactic structure, stellar clusters, and populations|
|Published online||02 June 2003|
3D dynamical evolution of the interstellar gas in the Gould Belt
Université Paris VII & CEA/Saclay, Service d'Astrophysique, 91191 Gif-sur-Yvette, France
Corresponding author: C. Perrot, firstname.lastname@example.org
Accepted: 20 March 2003
The dynamical evolution of the Gould Belt has been modelled in 3D and compared to the spatial and velocity distributions of all HI and H2 clouds found within a few hundred parsecs from the Sun and to the Hipparcos distances of the nearby OB associations. The model describes the expansion of a shock wave that sweeps momentum from the ambient medium. It includes the effects of the Galactic differential rotation and its gravitational torque, as well as interstellar density gradients within and away from the Galactic plane, possible fragmentation and drag forces in the late stages, and an initial rotation of the system. The evolved Belt geometry and velocity field have been fitted to the directions and velocities of the nearby clouds using a maximum-likelihood test. In order to do so, local clouds have been systematically searched for in the available HI and CO surveys. The likelihood function also included a distance estimate for a subset of well-known clouds. The best fit to the data yields values for the current Belt semi-axes of pc and pc, and an inclination of . These characteristics are consistent with earlier results, but a different Belt orientation has been found because of the presence of new molecular clouds and the revised distance information: the Belt centre currently lies pc away from the Sun, towards the Galactic longitude , and the ascending node longitude is . The Belt characteristics are independent of initial rotation. The present Belt rim is found to coincide with most of the nearby OB associations and H2 clouds, but the Belt expansion bears little relation to the average association velocities and the younger ones are surprisingly found farther out from the Belt center. An initial kinetic energy of 1045 J and an expansion age of Myr are required, in good agreement with earlier 2D estimates. The factor of 2 discrepancy that exists between the dynamical Belt age and that derived from photometric stellar ages could not be solved by adding a vertical dimension in the expansion, nor by adding drag forces and fragmentation, nor by introducing an initial rotation. Allowing the Belt to cross the Galactic disc before reaching its present position would require a longer age of 52 Myr, but the very poor fit to the data does not support this possibility.
Key words: shock waves / ISM: clouds / ISM: kinematics and dynamics / open clusters and associations: individual: Gould Belt
© ESO, 2003
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