We investigate the evolution of the phase-space distribution function around slightly perturbed stationary states and the process of violent relaxation in the context of the dissipationless collapse of an isolated spherical self-gravitating system. By means of the recently introduced symplectic coarse graining technique, we obtain an effective evolution equation that allows us to compute the scaling of the frequencies around a stationary state, as well as the damping times of Fourier modes of the distribution function, with the magnitude of the Fourier k-vectors themselves. We compare our analytical results with N-body simulations.
Symplectic coarse graining approach to the dynamics of spherical self-gravitating systems / Barbieri, Luca; Di Cintio, Pierfrancesco; Giachetti, Guido; Simon-Petit, Alicia; Casetti, Lapo. - In: MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY. - ISSN 0035-8711. - STAMPA. - 512:(2022), pp. 3015-3029. [10.1093/mnras/stac477]
Symplectic coarse graining approach to the dynamics of spherical self-gravitating systems
Barbieri, Luca;Cintio, Pierfrancesco;Simon-Petit, Alicia;Casetti, Lapo
2022
Abstract
We investigate the evolution of the phase-space distribution function around slightly perturbed stationary states and the process of violent relaxation in the context of the dissipationless collapse of an isolated spherical self-gravitating system. By means of the recently introduced symplectic coarse graining technique, we obtain an effective evolution equation that allows us to compute the scaling of the frequencies around a stationary state, as well as the damping times of Fourier modes of the distribution function, with the magnitude of the Fourier k-vectors themselves. We compare our analytical results with N-body simulations.
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