Noncommutative linear systems and noncommutative elliptic curves

Abstract

In this paper we introduce a noncommutative analogue of the notion of linear system, which we call a helix L := (Li)i ∈ Z in an abelian category C over a quadratic Z-indexed algebra A. We show that, under natural hypotheses, a helix induces a morphism of noncommutative spaces from Proj End(L) to Proj A. We construct examples of helices of vector bundles on elliptic curves generalizing the elliptic helices of line bundles constructed by Bondal-Polishchuk, where A is the quadratic part of B:= End(L). In this case, we identify B as the quotient of the Koszul algebra A by a normal family of regular elements of degree 3, and show that Proj B is a noncommutative elliptic curve in the sense of Polishchuk. One interprets this as embedding the noncommutative elliptic curve as a cubic divisor in some noncommutative projective plane, hence generalizing some well-known results of Artin-Tate-Van den Bergh.

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