The effects of fly-bys on planetary systems

TL;DR

This paper investigates how stellar fly-bys in young clusters can dynamically alter planetary systems, causing planet ejections and increased orbital eccentricities, potentially explaining observed extrasolar planet properties.

Contribution

It demonstrates through simulations that fly-bys can significantly disrupt planetary systems, leading to planet ejections and eccentric orbits, and quantifies this effect in cluster environments.

Findings

Fly-bys can cause immediate planet ejections or perturb orbits.

Perturbed systems can become unstable, leading to planet-planet scatterings.

Between 5 and 15 percent of systems experience planet ejections within 10^8 years in clusters.

Abstract

Most of the observed extrasolar planets are found on tight and often eccentric orbits. The high eccentricities are not easily explained by planet-formation models, which predict that planets should be on rather circular orbits. Here we explore whether fly-bys involving planetary systems with properties similar to those of the gas giants in the solar system, can produce planets with properties similar to the observed planets. Using numerical simulations, we show that fly-bys can cause the immediate ejection of planets, and sometimes also lead to the capture of one or more planets by the intruder. More common, however, is that fly-bys only perturb the orbits of planets, sometimes leaving the system in an unstable state. Over time-scales of a few million to several hundred million years after the fly-by, this perturbation can trigger planet-planet scatterings, leading to the ejection of one or more planets. For example, in the case of the four gas giants of the solar system, the fraction of systems from which at least one planet is ejected more than doubles in 10^8 years after the fly-by. The remaining planets are often left on more eccentric orbits, similar to the eccentricities of the observed extrasolar planets. We combine our results of how fly-bys effect solar-system-like planetary systems, with the rate at which encounters in young stellar clusters occur. For example, we measure the effects of fly-bys on the four gas giants in the solar system. We find, that for such systems, between 5 and 15 per cent suffer ejections of planets in 10^8 years after fly-bys in typical open clusters. Thus, encounters in young stellar clusters can significantly alter the properties of any planets orbiting stars in clusters. As a large fraction of stars which populate the solar neighbourhood form in stellar clusters, encounters can significantly affect the properties of the observed extrasolar planets.