A numerical study of the 1/2, 2/1, and 1/1 retrograde mean motion resonances in planetary systems

Abstract: We present a numerical study on the stability of the 1/2, 2/1 and 1/1 retrograde mean motion resonances in the 3-body problem composed of a solar mass star, a Jupiter mass planet and an additional body with zero mass (elliptic restricted 3-body problem) or masses corresponding to either Neptune, Saturn or Jupiter (planetary 3-body problem). For each system we obtain stability maps using the n-body numerical integrator REBOUND and computing the chaos indicator mean exponential growth factor of nearby orbits (ME… Show more

“…In Carit á, Signor & Morais ( 2022 ), we studied the stability of planetary systems in the 1/1, 1/2, and 2/1 retrograde resonances. These systems were composed by a solar mass star, a prograde planet with the mass of Jupiter, and a retrograde planet with zero E-mail: alan.cefali@unesp.br (ACS); helena.morais@unesp.br (MHMM) mass (ER3BP) or masses corresponding to Neptune, Saturn, or Jupiter [planetary 3-body problem (3BP)].…”

A numerical study of fourth- and fifth-order retrograde mean motion resonances in planetary systems

“…In Carit á, Signor & Morais ( 2022 ), we studied the stability of planetary systems in the 1/1, 1/2, and 2/1 retrograde resonances. These systems were composed by a solar mass star, a prograde planet with the mass of Jupiter, and a retrograde planet with zero E-mail: alan.cefali@unesp.br (ACS); helena.morais@unesp.br (MHMM) mass (ER3BP) or masses corresponding to Neptune, Saturn, or Jupiter [planetary 3-body problem (3BP)].…”

A numerical study of fourth- and fifth-order retrograde mean motion resonances in planetary systems

Image classification of retrograde resonance in the planar circular restricted three-body problem

Retrograde resonances at high mass ratio in the circular restricted 3-body problem