When is an axisymmetric potential separable?

Abstract

An axially symmetric potential psi(R,z)=psi(r,theta) is completely separable if the ratio s:k is constant. Here r*s=d2(r2*psi)/dr/d(theta) and k=d2(psi)/dR/dz. If beta=s/k, then the potential admits an integral of the form of I=(L2+beta*vz2)/2+xi where xi is some function of positions determined by the potential psi. More generally, an axially symmetric potential respects the third axisymmetric integral of motion -- in addition to the classical integrals of the Hamiltonian and the axial component of the angular momentum -- if there exist three real constants a,b,c (not all simultaneously zero, a2+b2+c2>0) such that a*s+b*h+c*k=0 where r*h=d2(r*psi)/d(sigma)/d(tau) and (sigma,tau) is the parabolic coordinate in the meridional plane such that sigma2=r+z and tau2=r-z.