Generalized Kepler Problems I: Without Magnetic Charges

Abstract

For each simple euclidean Jordan algebra V of rank and degree δ, we introduce a family of classical dynamic problems. These dynamical problems all share the characteristic features of the Kepler problem for planetary motions, such as existence of Laplace-Runge-Lenz vector and hidden symmetry. After suitable quantizations, a family of quantum dynamic problems, parametrized by the nontrivial Wallach parameter , is obtained. Here, ∈ W(V):=\k δ 2 k=1, ..., (-1)\((-1)δ 2, ∞) and was introduced by N. Wallach to parametrize the set of nontrivial scalar-type unitary lowest weight representations of the conformal group of V. For the quantum dynamic problem labelled by , the bound state spectra is -1/2 (I+ 2)2, I=0, 1, ... and its Hilbert space of bound states gives a new realization for the afore-mentioned representation labelled by . A few results in the literature about these representations become more explicit and more refined. The Lagrangian for a classical Kepler-type dynamic problem introduced here is still of the simple form: 1 2 || x||2+1 r. Here, x is the velocity of a unit-mass particle moving on the space consisting of V's semi-positive elements of a fixed rank, and r is the inner product of x with the identity element of V.