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Resonant Relaxation
Published online by Cambridge University Press: 12 April 2016
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The two main arenas of astrophysical dynamics are celestial mechanics and stellar dynamics. The former deals with the motion of few bodies in a near-Kepler potential; the latter with the motion of many bodies in a non-Kepler potential. I would like to discuss the hybrid problem of many bodies in a near-Kepler potential, which is relevant to a number of astrophysical systems, including protoplanetary disks and the centers of galaxies containing massive black holes.
Consider a spherical system of radius r, containing N bodies of mass m orbiting in the gravitational field of a body of mass M ≫ N m. Assume that the orbits have moderate eccentricities and random orientations and imagine taking a time exposure of the system over several orbits. Each body is then smeared into an approximate Kepler ellipse, which precesses slowly on a timescale tprec. Each ellipse exerts a force on other bodies at comparable radius, f ~ Gm/r2. The mean force from all the ellipses is Fm ~ N f. The mean force determines the precession time through the relation L ~ rFmtprec, where L ~ (GMr)1/2 is the specific angular momentum of an orbit. Thus tprec ~ (M/Nm)tcr, where tcr ~ (r3/GM)1/2 is the crossing time.
- Type
- Extended Abstracts
- Information
- International Astronomical Union Colloquium , Volume 172: Impact of Modern Dynamics in Astronomy , 1999 , pp. 391 - 392
- Copyright
- Copyright © Kluwer 1999
References
Rauch, K.P., and Ingalls, B.: 1997, ‘Resonant tidal disruption in galactic nuclei’. Mon. Not. Royal Astron. Soc., to be published (astro-phy9710288).Google Scholar
Rauch, K.P., and Tremaine, S.: 1996, ‘Resonant relaxation in stellar systems’, New Astronomy, 1, 149–170
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Tremarne, S.: 1996, ‘Resonant relaxation in protoplanetary disks’, Icarus, to be publishedGoogle Scholar
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