Rotational Surfaces in S^3 with constant mean curvature

Very recently Ben Andrews and Haizhong Li showed that every embedded cmc torus in the three dimensional sphere is axially symmetric. There is a two-parametric family of axially symmetric cmc surfaces; more precisely, for every real number H and every C > 2 (H+\sqrt{1+H^2}) there is an axially symmetry surface \Sigma_{H,C} with mean curvature H. In 2010, Perdomo showed that for every H between cot(\pi/m) and (m^2-2)/(2(m^2-1)^1/2), there exists an embedded axially symmetric example with non constant principal curvatures that is invariant under the ciclic group Z_m. Andrews and Li, showed that these examples are the only non-isoparametric embedded examples in the family when H>0. In this paper we study those examples in the family with H<0. We prove that there are no embedded examples in the family when H<0 and we also prove that for every integer m>2 there is a properly immersed example in this family that contains a great circle and is invariant under the ciclic group Z_m. We will say that these examples contain the axis of symmetry. Finally we show that every non-isoparametric surface \Sigma_{H,C} is either properly immersed invariant under the ciclic group Z_m for some integer m>1 or it is dense in the region bounded by two isoparametric tori if the surface \Sigma_{H,C} does not contain the axis of symmetry or it is dense in the region bounded by a totally umbilical surface if the surface \Sigma_{H,C} contains the axis of symmetry.Comment: 13 pages, 8 figure