Serre duality, Abel’s theorem, and Jacobi inversion for supercurves over a thick superpoint
Copyright policy )Serre duality, Abel’s theorem, and Jacobi inversion for supercurves over a thick superpoint
The principal aim of this paper is to extend Abel's theorem to the setting of complex supermanifolds of dimension 1|q over a finite-dimensional local supercommutative C-algebra. The theorem is proved by establishing a compatibility of Serre duality for the supercurve with Poincare duality on the reduced curve. We include an elementary algebraic proof of the requisite form of Serre duality, closely based on the account of the reduced case given by Serre in Algebraic Groups and Class Fields, combined with an invariance result for the topology on the dual of the space of repartitions. Our Abel map, taking Cartier divisors of degree zero to the dual of the space of sections of the Berezinian sheaf, modulo periods, is defined via Penkov's characterization of the Berezinian sheaf as the cohomology of the de Rham complex of the sheaf D of differential operators, as a right module over itself. We discuss the Jacobi inversion problem for the Abel map and give an example demonstrating that if n is an integer sufficiently large that the generic divisor of degree n is linearly equivalent to an effective divisor, this need not be the case for all divisors of degree n.
14 pages
- University of Georgia Press United States
- University of Georgia Georgia
- University of California, San Diego United States
- University of California, San Francisco United States
High Energy Physics - Theory, Complex supergeometry, supervarieties, Abel's theorem, FOS: Physical sciences, Mathematical Physics (math-ph), Supervarieties, Mathematical Sciences, supercurves, Mathematics - Algebraic Geometry, High Energy Physics - Theory (hep-th), Physical Sciences, FOS: Mathematics, Serre duality, Algebraic Geometry (math.AG), Mathematical Physics
High Energy Physics - Theory, Complex supergeometry, supervarieties, Abel's theorem, FOS: Physical sciences, Mathematical Physics (math-ph), Supervarieties, Mathematical Sciences, supercurves, Mathematics - Algebraic Geometry, High Energy Physics - Theory (hep-th), Physical Sciences, FOS: Mathematics, Serre duality, Algebraic Geometry (math.AG), Mathematical Physics
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