Add to ORKGWe consider a dissipative spin-orbit model where it is assumed that the orbit of the satellite is Keplerian, the obliquity is zero, and the dissipative effects depend linearly on the relative angular velocity. The measure of the basins of attraction associated to periodic and quasi-periodic attractors is numerically investigated. The results depend on the interaction among the physically relevant parameters, namely, the orbital eccentricity, the equatorial oblateness and the dissipative constant. In particular, it appears that, for astronomically relevant parameter values, for low eccentricities (as in the Moon’s case) about 96% of the initial data belong to the basin of attraction of the 1/1 spin-orbit resonance; for larger values o...
Abstract. We consider (p, q)−periodic orbits of a dissipative spin-orbit model, i.e. during q revolu...
The influence of dissipative effects on classical dynamical models of Celestial Mechanics is of basi...
In this paper, we make a detailed study of the spin–orbit dynamics of Mercury, as predicted by the r...
We consider a dissipative spin-orbit model where it is assumed that the orbit of the satellite is K...
We consider a dissipative spin-orbit model where it is assumed that the orbit of the satellite is Ke...
Introduction: ``Mechanical systems, in real life, are typically dissipative, and perfectly conservat...
In this paper we investigate the different behaviors of some satellites, subject to a spin-orbit int...
We investigate the dynamics of the spin-orbit coupling under different settings. First we consider t...
We investigate the dynamics of the spin–orbit coupling under different settings. First we consider t...
In a dissipative system the time to reach an attractor is often influenced by the peculiarities of t...
The behaviour of 'resonances' in the spin-orbit coupling in celestial mechanics is investigated in a...
textThe existence of the exact commensurability between the periods of rotation and revolution of a ...
We study the resonant dynamics in a simple one degree of freedom, time dependent Hamiltonian model d...
Abstract. We consider (p, q)−periodic orbits of a dissipative spin-orbit model, i.e. during q revolu...
The influence of dissipative effects on classical dynamical models of Celestial Mechanics is of basi...
In this paper, we make a detailed study of the spin–orbit dynamics of Mercury, as predicted by the r...
We consider a dissipative spin-orbit model where it is assumed that the orbit of the satellite is K...
We consider a dissipative spin-orbit model where it is assumed that the orbit of the satellite is Ke...
Introduction: ``Mechanical systems, in real life, are typically dissipative, and perfectly conservat...
In this paper we investigate the different behaviors of some satellites, subject to a spin-orbit int...
We investigate the dynamics of the spin-orbit coupling under different settings. First we consider t...
We investigate the dynamics of the spin–orbit coupling under different settings. First we consider t...
In a dissipative system the time to reach an attractor is often influenced by the peculiarities of t...
The behaviour of 'resonances' in the spin-orbit coupling in celestial mechanics is investigated in a...
textThe existence of the exact commensurability between the periods of rotation and revolution of a ...
We study the resonant dynamics in a simple one degree of freedom, time dependent Hamiltonian model d...
Abstract. We consider (p, q)−periodic orbits of a dissipative spin-orbit model, i.e. during q revolu...
The influence of dissipative effects on classical dynamical models of Celestial Mechanics is of basi...
In this paper, we make a detailed study of the spin–orbit dynamics of Mercury, as predicted by the r...