Generalized serre conditions and perverse coherent sheaves
In algebraic geometry, one often encounters the following problem: given a scheme X, find a proper birational morphism Y → X where the geometry of Y is "nicer" than that of X. One version of this problem, first studied by Faltings, requires Y to be Cohen-Macaulay; in this case Y → X is called a Macaulayfication of X. In another variant, one requires Y to satisfy the Serre condition S r. In this paper, the authors introduce generalized Serre conditions-these are local cohomology conditions which include S r and the Cohen-Macaulay condition as special cases. To any generalized Serre condition Sρ, there exists an associated perverse t-structure on the derived category of coherent sheaves on a suitable scheme X. Under appropriate hypotheses, the authors characterize those schemes for which a canonical finite Sρ-ification exists in terms of the intermediate extension functor for the associated perversity. Similar results, including a universal property, are obtained for a more general morphism extension problem called Sρ-extension. © 2013 Elsevier Inc.
Publication Source (Journal or Book title)
Journal of Algebra
Bremer, C., & Sage, D. (2013). Generalized serre conditions and perverse coherent sheaves. Journal of Algebra, 392, 85-96. https://doi.org/10.1016/j.jalgebra.2013.06.018