The characteristic variety for Feigin and Odesskii's elliptic algebras

Abstract

This paper examines an algebraic variety that controls an important part of the structure and representation theory of the algebra Qn,k(E,τ) introduced by Feigin and Odesskii. The Qn,k(E,τ)'s are a family of quadratic algebras depending on a pair of coprime integers n>k 1, an elliptic curve E, and a point τ∈ E. It is already known that the structure and representation theory of Qn,1(E,τ) is controlled by the geometry associated to E embedded as a degree n normal curve in the projective space Pn-1, and by the way in which the translation automorphism z z+τ interacts with that geometry. For k 2 a similar phenomenon occurs: (E,τ) is replaced by (Xn/k,σ) where Xn/k⊂eq Pn-1 is the characteristic variety of the title and σ is an automorphism of it that is determined by the negative continued fraction for nk. There is a surjective morphism :Eg Xn/k where g is the length of that continued fraction. The main result in this paper is that Xn/k is a quotient of Eg by the action of an explicit finite group. We also prove some assertions made by Feigin and Odesskii. The morphism is the natural one associated to a particular invertible sheaf Ln/k on Eg. The generalized Fourier-Mukai transform associated to Ln/k sends the set of isomorphism classes of degree-zero invertible OE-modules to the set of isomorphism classes of indecomposable locally free OE-modules of rank k and degree n. Thus Xn/k has an importance independent of the role it plays in relation to Qn,k(E,τ). The backward σ-orbit of each point on Xn/k determines a point module for Qn,k(E,τ).