Astronomy and Astrophysics – Astrophysics
Scientific paper
2000-06-30
Astronomy and Astrophysics
Astrophysics
Astrophysical Journal, Vol. 549, Number 1, Part 1, Page 192
Scientific paper
Orbital motion in triaxial nuclei with central point masses, representing supermassive black holes, is investigated. The stellar density is assumed to follow a power law, rho ~ 1/r^gamma, with gamma=1 or gamma=2. At low energies the motion is essentially regular; the major families of orbits are the tubes and the pyramids. Pyramid orbits are similar to box orbits but have their major elongation parallel to the short axis of the figure. A number of regular orbit families associated with resonances also exist, most prominently the banana orbits, which are also elongated with the short axis. At a radius where the enclosed stellar mass is a few times the black hole mass, the pyramid orbits become stochastic. The energy of transition to this ``zone of chaos'' is computed as a function of gamma and of the shape of the stellar figure; it occurs at lower energies in more elongated potentials. Our results suggest that supermassive black holes may place tight constraints on departures from triaxiality in galactic nuclei, both by limiting the allowed shapes of regular orbits and by inducing chaos.
Merritt David
Poon M. Y.
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