Actions of highly eccentric orbits

Abstract

The challenge presented by computing actions for eccentric orbits in axisymmetric potentials is discussed. In the limit of vanishing angular momentum about the potential's symmetry axis, there is a clean distinction between box and loop orbits. We show that this distinction persists into the regime of non-zero angular momentum. In the case of a Staeckel potential, there is a critical value I3crit(E) of the third integral I3 below which I3 does not contribute to the centrifugal barrier. An orbit is of box or loop type according as its value of I3 is smaller or greater than I3crit. We give algorithms for determining I3crit(E) and the critical action Jzcrit below which orbits in any given potential are boxes. It is hard to compute the actions and especially the frequencies of orbits that have Jz ~ Jzcrit using the Staeckel Fudge. A modification of the Fudge that alleviates the problem is described.