Astronomy and Astrophysics – Astrophysics
Scientific paper
1999-09-23
Astronomy and Astrophysics
Astrophysics
Invited review to appear in "The Chaotic Universe", eds. R. Ruffini, V.G. Gurzadyan (World Scientific) 1999, 9 pages, 4 figure
Scientific paper
The orbits of stars in galaxies are generically chaotic: the chaotic behavior arises in part from the intrinsically grainy nature of a potential that is composed of point masses. Even if the potential is assumed to be smooth, however, orbits in non-axisymmetric galaxies can be chaotic due to the presence of central density cusps or black holes. The chaotic nature of orbits implies that perturbations will grow exponentially and this in turn is expected to result in a diffusion in phase space. We show that the degree of orbital evolution is not well predicted by the growth rate of infinitesimal perturbations, i.e. by the Liapunov exponent. A more useful criterion is whether perturbations continue to grow exponentially until their scale is of order the size of the system. We illustrate these ideas in a potential consisting of N fixed point masses. Liapunov exponents are large for all values of N, but orbits become increasingly regular in their behavior as N increases; the reason is that the exponential divergence saturates at smaller and smaller distances as N is increased. The objects which impede diffusion are the invariant tori. When there are few stable tori, an ensemble of chaotic orbits evolves rapidly toward a nearly stationary state. This mixing process occurs on timescales of a few crossing times in triaxial potentials containing massive central singularities, consistent with the rapid evolution observed in N-body simulations of galaxies with central black holes.
Merritt David
Valluri Monica
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