Characterizations of ellipsoids by means of the strong intersection property

Abstract

Let E1,E2⊂ Rn be two homothetic solid ellipsoids, n≥ 3, with center at the origin O of a system coordinates of Rn, and E1⊂ E2. Then there exists a O-symmetric ellipsoid E3 such that E3 is homothetic to E1 and, for all x∈ ∂ E2, there exists an hyperplano (x), O∈ (x), such that the relation eqnarray S(E1,x) S(E1,-x)= (x) E3. eqnarray holds, where S(E1,x) and S(E1,-x) are the supporting cones of E1 with apex x and -x, respectively. In this work we prove that aforesaid condition characterizes the ellipsoid. In fact, we prove that if K,S, G⊂ Rn are three convex bodies, n≥ 3, O∈ K, K⊂ G⊂ S and G strictly convex and, for all x∈ ∂ S, there exists y∈ ∂ S, O in the line defined by x,y, an hyperplane (x), O∈ (x), such that the relation eqnarray S(K,x) S(K,y)= (x) ∂ G. eqnarray holds, where S(K,x) and S(K,y) are the supporting cones of K with apex x and y, respectively, then G,K and S are O-symmetric homothetic ellipsoids. In this case, we say that the convex body K has the 'strong intersection property' relative to O and S and with 'associated' body G. Thus our main result affirm that if the convex body K has the strong intersection property relative to O and S and with associated strictly convex body G, then K,S and G are concentric homothetic ellipsoids.