English

Gradient Symplectic Algorithms for Solving the Radial Schrodinger Equation

Computational Physics 2009-11-11 v1 Chemical Physics

Abstract

The radial Schrodinger equation for a spherically symmetric potential can be regarded as a one dimensional classical harmonic oscillator with a time-dependent spring constant. For solving classical dynamics problems, symplectic integrators are well known for their excellent conservation properties. The class of {\it gradient} symplectic algorithms is particularly suited for solving harmonic oscillator dynamics. By use of Suzuki's rule for decomposing time-ordered operators, these algorithms can be easily applied to the Schrodinger equation. We demonstrate the power of this class of gradient algorithms by solving the spectrum of highly singular radial potentials using Killingbeck's method of backward Newton-Ralphson iterations.

Keywords

Cite

@article{arxiv.physics/0509229,
  title  = {Gradient Symplectic Algorithms for Solving the Radial Schrodinger Equation},
  author = {Siu A. Chin and Petr Anisimov},
  journal= {arXiv preprint arXiv:physics/0509229},
  year   = {2009}
}

Comments

19 pages, 10 figures