Resonance capture and long-term evolution of planets in binary star systems

Abstract: Aims. The growing population of planets discovered in orbit around one stellar component of a binary star raises the question of the influence of the binary companion on the formation process of planetary systems. The aim of this work is to study the impact of a binary companion on the evolution of two-planet systems during both the type-II migration phase and their long-term evolution after the dissipation of the protoplanetary disk. Methods. We used the symplectic integrator SyMBA, modified to include a wide… Show more

“…Interactions with protoplanetary discs can cause migrations that allow formation of planet pairs in mean motion resonance (MMR) despite the presence of a binary companion. Roisin et al (2022) simulate the evolution of planet pairs, and find that resonances (such as the 3:1 resonance, close to the orbital period ratio between Signal 2 to Signal 4) can arise during migrations.…”

DMPP-3: confirmation of short-period S-type planet(s) in a compact eccentric binary star system, and warnings about long-period RV planet detections

“…Interactions with protoplanetary discs can cause migrations that allow formation of planet pairs in mean motion resonance (MMR) despite the presence of a binary companion. Roisin et al (2022) simulate the evolution of planet pairs, and find that resonances (such as the 3:1 resonance, close to the orbital period ratio between Signal 2 to Signal 4) can arise during migrations.…”

DMPP-3: confirmation of short-period S-type planet(s) in a compact eccentric binary star system, and warnings about long-period RV planet detections