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Numerical solution of perturbed Kepler problem using a split operator technique

Computational Physics 2009-11-13 v1 Atomic Physics
Authors: G. S. Balaraman , D. Vrinceanu
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Abstract

An efficient geometric integrator is proposed for solving the perturbed Kepler motion. This method is stable and accurate over long integration time, which makes it appropriate for treating problems in astrophysics, like solar system simulations, and atomic and molecular physics, like classical simulations of highly excited atoms in external fields. The key idea is to decompose the hamiltonian in solvable parts and propagate the system according to each term. Two case studies, the Kepler atom in an uniform field and in a monochromatic field, are presented and the errors are analyzed.

Keywords

partial differential equations computational physics harmonic oscillator in quantum mechanics

Cite

@article{arxiv.physics/0610033,
  title  = {Numerical solution of perturbed Kepler problem using a split operator technique},
  author = {G. S. Balaraman and D. Vrinceanu},
  journal= {arXiv preprint arXiv:physics/0610033},
  year   = {2009}
}

Comments

17 pages, 5 figures, submitted to the Journal of Computational Physics

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