A new integrable generalization to the two-dimensional (2D) sphere, S-2, and to the hyperbolic space, H-2, of the 2D Euclidean anisotropic oscillator Hamiltonian with Rosochatius (centrifugal) terms is presented, and its curved integral of motion is shown to be quadratic in the momenta. To construct such a new integrable Hamiltonian, H-kappa, we will use a group theoretical approach in which the curvature, kappa, of the underlying space will be treated as an additional (contraction) parameter, and we will make extensive use of projective coordinates and their associated phase spaces. When the oscillator parameters Omega(1) and Omega(2) are such that Omega(2)= 4 Omega(1), the system turns out to be the well-known superintegrable 1: 2 oscillator on S-2 and H-2. Nevertheless, numerical integration of the trajectories of H-kappa suggests that for other values of the parameters Omega(1) and Omega(2), the system is not superintegrable. In this way, we support the conjecture that for each commensurate, and thus superintegrable, m: n Euclidean oscillator there exists a two-parametric family of curved integrable oscillators that turns out to be superintegrable only when the parameters are tuned to the m: n commensurability condition.

• 出版日期2014-8-29