Add to ORKGJupiter and Saturn play host to an impressive array of satellites, making it reasonable to suspect that similar systems of moons might exist around giant extrasolar planets. Furthermore, a significant population of such planets is known to reside at distances of several Astronomical Units (AU), leading to speculation that some moons thereof might support liquid water on their surfaces. However, giant planets are thought to undergo inward migration within their natal protoplanetary disks, suggesting that gas giants currently occupying their host star's habitable zone formed farther out. Here we show that when a moon-hosting planet undergoes inward migration, dynamical interactions may naturally destroy the moon through capture into a so-call...
Context. The extremely low density of several long-period exoplanets in mature systems is still unex...
Planet-planet scattering is the best current candidate for explaining the eccentric and inclined orb...
Context. During the first hundred million years after the formation of our solar system, the four gi...
All the giant planets in the Solar system host a large number of natural satellites. Moons in extras...
Saturn is orbited by dozens of moons, and the intricate dynamics of this complex system provide clue...
We examine the effects that planetary encounters have on the moon systems of ejected gas giant plane...
International audiencePlanet-planet scattering is the best candidate mechanism for explaining the ec...
Moons of giant planets may represent an alternative to the classical picture of habitable worlds. Th...
Despite numerous attempts, no exomoon has firmly been confirmed to date. New missions like CHEOPS ai...
Close-in giant planets represent the most significant evidence of planetary migration. If large exom...
International audienceDespite numerous attempts, no exomoon has firmly been confirmed to date. New m...
Planet–planet scattering is the leading mechanism to explain the broad eccentricity distribution of ...
International audiencePlanet–planet scattering is the leading mechanism to explain the broad eccentr...
Satellites of giant planets have been thought to form in gaseous circumplanetary disks (CPDs) during...
Context. The extremely low density of several long-period exoplanets in mature systems is still unex...
Planet-planet scattering is the best current candidate for explaining the eccentric and inclined orb...
Context. During the first hundred million years after the formation of our solar system, the four gi...
All the giant planets in the Solar system host a large number of natural satellites. Moons in extras...
Saturn is orbited by dozens of moons, and the intricate dynamics of this complex system provide clue...
We examine the effects that planetary encounters have on the moon systems of ejected gas giant plane...
International audiencePlanet-planet scattering is the best candidate mechanism for explaining the ec...
Moons of giant planets may represent an alternative to the classical picture of habitable worlds. Th...
Despite numerous attempts, no exomoon has firmly been confirmed to date. New missions like CHEOPS ai...
Close-in giant planets represent the most significant evidence of planetary migration. If large exom...
International audienceDespite numerous attempts, no exomoon has firmly been confirmed to date. New m...
Planet–planet scattering is the leading mechanism to explain the broad eccentricity distribution of ...
International audiencePlanet–planet scattering is the leading mechanism to explain the broad eccentr...
Satellites of giant planets have been thought to form in gaseous circumplanetary disks (CPDs) during...
Context. The extremely low density of several long-period exoplanets in mature systems is still unex...
Planet-planet scattering is the best current candidate for explaining the eccentric and inclined orb...
Context. During the first hundred million years after the formation of our solar system, the four gi...