Abstract
The stars that populate the solar neighbourhood were formed in stellar clusters. Through N-body simulations of these clusters, we measure the rate of close encounters between stars. By monitoring the interaction histories of each star, we investigate the singleton fraction in the solar neighbourhood. A singleton is a star which formed as a single star, has never experienced any close encounters with other stars or binaries, or undergone an exchange encounter with a binary. We find that, of the stars which formed as single stars, a significant fraction are not singletons once the clusters have dispersed. If some of these stars had planetary systems, with properties similar to those of the solar system, the planets orbits may have been perturbed by the effects of close encounters with other stars or the effects of a companion star within a binary. Such perturbations can lead to strong planet-planet interactions which eject several planets, leaving the remaining planets on eccentric orbits. Some of the single stars exchange into binaries. Most of these binaries are broken up via subsequent interactions within the cluster, but some remain intact beyond the lifetime of the cluster. The properties of these binaries are similar to those of the observed binary systems containing extra-solar planets. Thus, dynamical processes in young stellar clusters will alter significantly any population of solar-system-like planetary systems. In addition, beginning with a population of planetary systems exactly resembling the solar system around single stars, dynamical encounters in young stellar clusters may produce at least some of the extra-solar planetary systems observed in the solar neighbourhood.
Highlights
IntroductionIn such environments close encounters with other stars and binaries will be frequent
During the simulations we monitored the interactions of each star with other stars and binaries in the cluster. This allowed us to estimate a lower bound on the singleton fraction in the solar neighbourhood, that is, the fraction of stars which formed single and have never undergone any close encounters or been exchanged into a binary
We find that of the stars with a mass close to 1 M, which were formed as single stars in large clusters, a significant fraction have undergone some type of strong interaction with another star or binary, either a fly-by or an exchange encounter with a binary system
Summary
In such environments close encounters with other stars and binaries will be frequent These close encounters can strongly affect the stability of planetary systems around the stars (de La Fuente Marcos & de La Fuente Marcos 1997; Laughlin & Adams 1998; Hurley & Shara 2002; Pfahl & Muterspaugh 2006; Spurzem et al 2006). It has been suggested, for example, that the hot Jupiter orbiting the triple star HD 188753 is the result of stellar interactions in a young stellar cluster (Pfahl 2005; Portegies Zwart & McMillan 2005). In order to understand how important dynamical effects in young stellar clusters are for the population of extrasolar planets, we must first know how frequent
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
