On the minimal rank in non-reflexive operator spaces over finite fields

Abstract

Let U and V be vector spaces over a field K, and S be an n-dimensional linear subspace of L(U,V). The space S is called algebraically reflexive whenever it contains every linear map g : U → V such that, for all x ∈ U, there exists f ∈ S with g(x)=f(x). A theorem of Meshulam and Semrl states that if S is not algebraically reflexive then it contains a non-zero operator f of rank at most 2n-2, provided that K has more than n+2 elements. In this article, we prove that the provision on the cardinality of the underlying field is unnecessary. To do so, we demonstrate that the above result holds for all finite fields.