In:
Journal of Mathematical Physics, AIP Publishing, Vol. 43, No. 7 ( 2002-07-01), p. 3592-3609
Abstract:
Consider a classical Hamiltonian H in n dimensions consisting of a kinetic energy term plus a potential. If the associated Hamilton–Jacobi equation admits an orthogonal separation of variables, then it is possible to generate algorithmically a canonical basis Q, P where P1=H, P2,…,Pn are the other second-order constants of the motion associated with the separable coordinates, and {Qi,Qj}={Pi,Pj}=0, {Qi,Pj}=δij. The 2n−1 functions Q2,…,Qn,P1,…,Pn form a basis for the invariants. We show how to determine for exactly which spaces and potentials the invariant Qj is a polynomial in the original momenta. We shed light on the general question of exactly when the Hamiltonian admits a constant of the motion that is polynomial in the momenta. For n=2 we go further and consider all cases where the Hamilton–Jacobi equation admits a second-order constant of the motion, not necessarily associated with orthogonal separable coordinates, or even separable coordinates at all. In each of these cases we construct an additional constant of the motion.
Type of Medium:
Online Resource
ISSN:
0022-2488
,
1089-7658
Language:
English
Publisher:
AIP Publishing
Publication Date:
2002
detail.hit.zdb_id:
1472481-9
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