A Multiple Time Step Symplectic Algorithm for Integrating CloseEncounters

Martin J. Duncan; Harold F. Levison; Man Hoi Lee

doi:10.1086/300541

A Multiple Time Step Symplectic Algorithm for Integrating Close Encounters

Martin J. Duncan¹, Harold F. Levison², and Man Hoi Lee^1,3

© 1998. The American Astronomical Society. All rights reserved. Printed in U.S.A.
The Astronomical Journal, Volume 116, Number 4 Citation Martin J. Duncan et al 1998 AJ 116 2067 DOI 10.1086/300541

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¹ Department of Physics, Queen's University, Kingston, ON K7L 3N6, Canada

² Space Science Department, Southwest Research Institute, Boulder, CO 80302

³ Present address: Department of Physics, University of California, Santa Barbara, CA 93106

Dates

Received 1998 February 20

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Abstract

We present a new symplectic algorithm that has the desirable properties of the sophisticated but highly efficient numerical algorithms known as mixed variable symplectic (MVS) methods and that, in addition, can handle close encounters between objects. This technique is based on a variant of the standard MVS methods, but it handles close encounters by employing a multiple time step technique. When the bodies are well separated, the algorithm has the speed of MVS methods, and whenever two bodies suffer a mutual encounter, the time step for the relevant bodies is recursively subdivided to whatever level is required. We demonstrate the power of this method using several tests of the technique. We believe that this algorithm will be a valuable tool for the study of planetesimal dynamics and planet formation.

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