Perturbation analysis of trapped-particle dynamics in axisymmetric dipole geometry

Abstract

The perturbation analysis of the bounce action-angle coordinates (J,ζ) for charged particles trapped in an axisymmetric dipole magnetic field is presented. First, the lowest-order bounce action-angle coordinates are derived for deeply-trapped particles in the harmonic-oscillator approximation. Next, the Lie-transform perturbation method is used to derive higher-order anharmonic action-angle corrections. Explicit expressions (with anharmonic corrections) for the canonical parallel coordinates s(J,ζ) and p\|(J,ζ) are presented, which satisfy the canonical identity \s,\; p\|\(J,ζ) 1. Lastly, analytical expressions for the bounce and drift frequencies (which include anharmonic corrections) yield excellent agreement with exact numerical results.