A Characterization of the sphere and a body of revolution by means of Larman points

Abstract

Let K⊂ Rn, n≥ 3, be a convex body. A point p the interior of K is said to be a Larman point of K if for every hyperplane passing through p the section K has a (n-2)-plane of symmetry. If p is a Larman point of K and, in addition, for every section K, p is in the corresponding (n-2)-plane of symmetry, then we call p a revolution point of K. We conjecture that if K contains a Larman point which is not a revolution point, then K is either an ellipsoid or a body of revolution. This generalizes a conjecture of K. Bezdek for convex bodies in R3 to n ≥ 4. We prove several results related to the conjecture for strictly convex origin symmetric bodies. Namely, if K ⊂ Rn is a strictly convex origin symmetric body that contains a revolution point p which is not the origin, then K is a body of revolution. This generalizes the False Axis of Revolution Theorem. We also show that if p is a Larman point of K ⊂ R3 and there exists a line L such that p L and, for every plane passing through p, the line of symmetry of the section K intersects L, then K is a body of revolution (in some cases, we conclude that K is a sphere). We obtain a similar result for projections of K. Additionally, for K ⊂ Rn, n ≥ 4, we show that if every hyperplane section or projection of K is a body of revolution and K has a unique diameter D, then K is a body of revolution with axis D.