Generalized normal homogeneous Riemannian metrics on spheres and projective spaces

Abstract

In this paper we develop new methods of study of generalized normal homogeneous Riemannian manifolds. In particular, we obtain a complete classification of generalized normal homogeneous Riemannian metrics on spheres. We prove that for any connected (almost effective) transitive on Sn compact Lie group G, the family of G-invariant Riemannian metrics on Sn contains generalized normal homogeneous but not normal homogeneous metrics if and only if this family depends on more than one parameters. Any such family (that exists only for n=2k+1) contains a metric g of constant sectional curvature 1 on Sn. We also prove that (S2k+1, g) is Clifford-Wolf homogeneous, and therefore generalized normal homogeneous, with respect to G (excepting the groups G=SU(k+1) with odd k+1). The space of unit Killing vector fields on (S2k+1, g) from Lie algebra g of Lie group G is described as some symmetric space (excepting the case G=U(k+1) when one obtains the union of all complex Grassmannians in Ck+1).