SubRiemannian geometry on the sphere S3

Abstract

The present paper starts with an introduction to quaternions and then defines the 3-dimmensional sphere as the set of quaternions of length one. The quaternion group induces on S3 a structure of noncommutative Lie group. This group is compact and the results obtained in this case are very different than those obtained in the case of the Heisenberg group, which is a noncompact Lie group. Like in the Heisenberg group case, we introduce a nonintegrable distribution on the sphere and a metric on it using two of the noncommutative left invariant vector fields. This way S3 becomes a subRiemannian manifold. It is known that the group SU(2) is isomorphic with the sphere S3 and represents an example of subRiemannian manifold where the elements are matrices. The main issue here is to study the connectivity by horizontal curves and its geodesics on this manifold. In this paper, we are using Lagrangian method to study the connectivity theorem on S3 by horizontal curves with minimal arc-length. We show that for any two points in S3, there exists such a geodesic joining these two points.