Range-compatible homomorphisms on spaces of symmetric or alternating matrices

Abstract

Let U and V be finite-dimensional vector spaces over an arbitrary field K, and S be a linear subspace of the space L(U,V) of all linear maps from U to V. A map F : S → V is called range-compatible when it satisfies F(s) ∈ im(s) for all s ∈ S. Among the range-compatible maps are the so-called local ones, that is the maps of the form s s(x) for a fixed vector x of U. In recent works, we have classified the range-compatible group homomorphisms on S when the codimension of S in L(U,V) is small. In the present article, we study the special case when S is a linear subspace of the space Sn(K) of all n by n symmetric matrices: we prove that if the codimension of S in Sn(K) is less than or equal to n-2, then every range-compatible homomorphism on S is local provided that K does not have characteristic 2. With the same assumption on the codimension of S, we also classify the range-compatible homomorphisms on S when K has characteristic 2. Finally, we prove that if S is a linear subspace of the space An(K) of all n by n alternating matrices with entries in K, and the codimension of S is less than or equal to n-3, then every range-compatible homomorphism on S is local.