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2 results

  • 8 - Identification of the Space of Conformal Blocks with the Space of Generalized Theta Functions

  • Shrawan Kumar, University of North Carolina, Chapel Hill
  • Book:
    Conformal Blocks, Generalized Theta Functions and the Verlinde Formula
    Published online:
    19 November 2021
    Print publication:
    25 November 2021, pp 328-378

  • Summary

    We prove that the ind-scheme ? consisting of regular maps from an affine curve to a simple, simply-connected group G as closed points is an irreducible and reduced ind-projective variety. By taking the Laurent series expansion at any point at infinity, we can view ? as a subgroup of the loop group. We prove that the central extension of the loop group splits over ? if the affine curve has a single point at infinity. We prove that the space of vacua for any s-pointed smooth curve ? is identified with the space of global sections of the moduli stack of quasi-parabolic G-bundles over ? with respect to a certain line bundle. We also determine the Picard group of this moduli stack. We introduce the notion of theta bundle for a family of G-bundles over ? and determine it for the tautological family of G-bundles over ? parameterized by the infinite Grassmannian in terms of the Dynkin index. The main result of this chapter asserts that there is a canonical identification between the space of global sections of a line bundle over the coarse moduli space of parabolic G-bundles over any s-pointed smooth projective curve ? and the space of vacua.

  • Determinant Bundles for Abelian Schemes

  • A. Polishchuk
  • Journal:
    Compositio Mathematica / Volume 121 / Issue 3 / May 2000
    Published online by Cambridge University Press:
    04 December 2007, pp. 221-245
    Print publication:
    May 2000
    • Article
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  • To a symmetric, relatively ample line bundle on an Abelian scheme one can associate a linear combination of the determinant bundle and the relative canonical bundle, which is a torsion element in the Picard group of the base. We improve the bound on the order of this element found by Faltings and Chai. In particular, we obtain an optimal bound when the degree of the line bundle d is odd and the set of residue characteristics of the base does not intersect the set of primes p dividing d, such that p$\equiv -1$ mod(4) and p$\le 2$g$-1$, where g is the relative dimension of the Abelian scheme. Also, we show that in some cases these torsion elements generate the entire torsion subgroup in the Picard group of the corresponding moduli stack.