On the survivability of a population of gas giant planets on wide orbits

TL;DR

This study uses N-body simulations to show that stellar encounters can significantly disrupt wide-orbit giant planets, supporting the idea that such planets could be initially common and formed via disc instability.

Contribution

It provides the first detailed analysis of how close stellar encounters affect the survivability of wide-orbit giant planets, highlighting their potential to be disrupted.

Findings

Single stellar encounters can liberate about 17% of wide-orbit giants.

Approximately 10% are scattered significantly outward.

Around 6% are scattered inward, and 21% have increased eccentricity.

Abstract

The existence of giant planets on wide orbits ($\stackrel{>}{_\sim}100$AU) challenge planet formation theories; the core accretion scenario has difficulty in forming them, whereas the disc instability model forms an overabundance of them that is not seen observations. We perform $N$-body simulations investigating the effect of close stellar encounters ($\leq 1200$AU) on systems hosting wide-orbit giant planets and the extent at which such interactions may disrupt the initial wide-orbit planet population. We find that the effect of an interaction on the orbit of a planet is stronger for high-mass, low-velocity perturbers, as expected. We find that due to just a single encounter there is a $\sim 17%$ chance that the wide-orbit giant planet is liberated in the field, a $\sim 10$% chance it is scattered significantly outwards, and a $\sim 6$% chance it is significantly scattered inwards. Moreover, there is a $\sim 21\%$ chance that its eccentricity is excited to e>0.1, making it more prone to disruption in subsequent encounters. The results strongly suggest that the effect of even a single stellar encounter is significant in disrupting the primordial wide-orbit giant planet population; in reality the effect will be even more prominent, as in a young star-forming region more such interactions are expected to occur. We conclude that the low occurrence rate of wide-orbit planets revealed by observational surveys does not exclude the possibility that such planetary systems are initially abundant, and therefore the disc-instability model may be a plausible scenario for their formation.