Algebraic and Geometric Properties of Ln+-Semipositive Matrices and Ln+-Semipositive Cones

Abstract

Given a proper cone K in the Euclidean space Rn, a square matrix A is said to be K-semipositive if there exists an x∈ K such that Ax∈ int(K), the topological interior of K. The paper aims to study algebraic and geometrical properties of K-semipositive matrices with special emphasis on the self-dual proper Lorentz cone Ln+=\x∈ Rn:xn≥ 0,Σi=1n-1xi2≤ xn2\. More specifically, we discuss a few necessary and other sufficient algebraic conditions for Ln+-semipositive matrices. Also, we provide algebraic characterizations for diagonal and orthogonal Ln+-semipositive matrices. Furthermore, given a square matrix A and a proper cone K, geometric properties of the semipositive cone KA,K=\x∈ K:~Ax∈ K\ and the cone of SA,K=\x:Ax∈ K\ are discussed in terms of their extremals. As Ln+ is an ellipsoidal cone, at last we find results for the cones KA,Ln+ and SA,Ln+ to be ellipsoidal.