On the existence of an invariant non-degenerate bilinear form under a linear map

Abstract

Let be a vector space over a field . Assume that the characteristic of is large, i.e. char()> . Let T: be an invertible linear map. We answer the following question in this paper: When does admit a T-invariant non-degenerate symmetric (resp. skew-symmetric) bilinear form? We also answer the infinitesimal version of this question. Following Feit-Zuckerman fz, an element g in a group G is called real if it is conjugate in G to its own inverse. So it is important to characterize real elements in (, ). As a consequence of the answers to the above question, we offer a characterization of the real elements in (V, ). Suppose is equipped with a non-degenerate symmetric (resp. skew-symmetric) bilinear form B. Let S be an element in the isometry group I(, B). A non-degenerate S-invariant subspace of (, B) is called orthogonally indecomposable with respect to S if it is not an orthogonal sum of proper S-invariant subspaces. We classify the orthogonally indecomposable subspaces. This problem is nontrivial for the unipotent elements in I(, B). The level of a unipotent T is the least integer k such that (T-I)k=0. We also classify the levels of unipotents in I(, B).