Syzygies of Isotropic Kalman Varieties

Abstract

Let L be a subspace of a complex vector space V and fix s ≤ L. The (type A) Kalman variety consists of all endomorphisms of V that have an s-dimensional invariant subspace in L. We introduce a generalization where V and L are symplectic vector spaces. We fix an isotropic subspace W ⊂eq V satisfying W = W L. The isotropic (type C) Kalman variety consists of symplectic morphisms of V that have an invariant coisotropic subspace of a prescribed dimension inside W. We are mainly interested in studying the Lagrangian case. In type C, we prove analogues of results known for type A Kalman varieties; in particular, we determine the defining equations, compute geometric invariants, and analyze their singularities. We conjecture the existence of a long exact sequence relating the structure sheaves. Based on the results in the symplectic case, we describe Kalman variety analogues with respect to endomorphisms of odd orthogonal (type B) and even orthogonal (type D) vector spaces.