Generalized von Mangoldt surfaces of revolution and asymmetric two-spheres of revolution with simple cut locus structure

Abstract

It was known that if the Gaussian curvature function along each meridian on a surface of revolution (R2, dr2+m(r)2dθ2) is decreasing, then the cut locus of each point of θ-1(0) is empty or a subarc of the opposite meridian θ-1(π). Such a surface is called a von Mangoldt's surface of revolution. A surface of revolution (R2, dr2+m(r)2dθ2) is called a generalized von Mangoldt surface of revolution if the cut locus of each point of θ-1(0) is empty or a subarc of the opposite meridian θ-1(π). For example, the surface of revolution (R2, dr2+m0(r)2dθ2), where m0(x):=x/(1+x2), has the same cut locus structure as above and the cut locus of each point in r-1( (0, ∞ ) ) is nonempty. Note that the Gaussian curvature function is not decreasing along a meridian for this surface. In this article, we give sufficient conditions for a surface of revolution (R2, dr2+m(r)2dθ2) to be a generalized von Mangoldt surface of revolution. Moreover, we prove that for any surface of revolution with finite total curvature c, there exists a generalized von Mangoldt surface of revolution with the same total curvature c such that the Gaussian curvature function along a meridian is not monotone on [a,∞) for any a>0.