中文

An Exactly Conservative Integrator for the n-Body Problem

计算物理 2009-11-07 v2 经典物理

摘要

The two-dimensional n-body problem of classical mechanics is a non-integrable Hamiltonian system for n > 2. Traditional numerical integration algorithms, which are polynomials in the time step, typically lead to systematic drifts in the computed value of the total energy and angular momentum. Even symplectic integration schemes exactly conserve only an approximate Hamiltonian. We present an algorithm that conserves the true Hamiltonian and the total angular momentum to machine precision. It is derived by applying conventional discretizations in a new space obtained by transformation of the dependent variables. We develop the method first for the restricted circular three-body problem, then for the general two-dimensional three-body problem, and finally for the planar n-body problem. Jacobi coordinates are used to reduce the two-dimensional n-body problem to an (n-1)-body problem that incorporates the constant linear momentum and center of mass constraints. For a four-body choreography, we find that a larger time step can be used with our conservative algorithm than with symplectic and conventional integrators.

关键词

引用

@article{arxiv.physics/0112084,
  title  = {An Exactly Conservative Integrator for the n-Body Problem},
  author = {Oksana Kotovych and John C. Bowman},
  journal= {arXiv preprint arXiv:physics/0112084},
  year   = {2009}
}

备注

17 pages, 3 figures; to appear in J. Phys. A.: Math. Gen