Invariant subspaces of T-palindromic pencils and algebraic T-Riccati equations

Abstract

By exploiting the connection between solving algebraic -Riccati equations and computing certain deflating subspaces of -palindromic matrix pencils, we obtain theoretical and computational results on both problems. Theoretically, we introduce conditions to avoid the presence of modulus-one eigenvalues in a -palindromic matrix pencil and conditions for the existence of solutions of a -Riccati equation. Computationally, we improve the palindromic QZ algorithm with a new ordering procedure and introduce new algorithms for computing a deflating subspace of the -palindromic pencil, based on quadraticizations of the pencil or on an integral representation of the orthogonal projector on the sought deflating subspace.