Schur's Lemma for Coupled Reducibility and Coupled Normality

Abstract

Let A = \Aij \i, j ∈ I, where I is an index set, be a doubly indexed family of matrices, where Aij is ni × nj. For each i ∈ I, let Vi be an ni-dimensional vector space. We say A is reducible in the coupled sense if there exist subspaces, Ui ⊂eq Vi, with Ui ≠ \0\ for at least one i ∈ I, and Ui ≠ Vi for at least one i, such that Aij ( Uj) ⊂eq Ui for all i, j. Let B = \Bij \i, j ∈ I also be a doubly indexed family of matrices, where Bij is mi × mj. For each i ∈ I, let Xi be a matrix of size ni × mi. Suppose Aij Xj = Xi Bij for all~i, j. We prove versions of Schur's Lemma for A, B satisfying coupled irreducibility conditions. We also consider a refinement of Schur's Lemma for sets of normal matrices and prove corresponding versions for A, B satisfying coupled normality and coupled irreducibility conditions.