English

On local divisor class groups of complete intersections

Commutative Algebra 2024-08-14 v3 Algebraic Geometry

Abstract

Samuel conjectured in 1961 that a (Noetherian) local complete intersection ring that is a UFD in codimension at most three is itself a UFD. It is said that Grothendieck invented local cohomology to prove this fact. Following the philosophy that a UFD is nothing else than a Krull domain (that is, a normal domain, in the Noetherian case) with trivial divisor class group, we take a closer look at the Samuel--Grothendieck Theorem and prove the following generalization: Let AA be a local Cohen--Macaulay ring. (i) AA is a normal domain if and only if AA is a normal domain in codimension at most 11. (ii) Suppose that AA is a normal domain and a complete intersection. Then the divisor class group of AA is a subgroup of the projective limit of the divisor class groups of the localizations ApA_p, where pp runs through all prime ideals of height at most 33 in AA. We use this fact to describe for an integral Noetherian locally complete intersection scheme XX the gap between the groups of Weil and Cartier divisors, generalizing in this case the classical result that these two concepts coincide if XX is locally a UFD.

Keywords

Cite

@article{arxiv.2303.05270,
  title  = {On local divisor class groups of complete intersections},
  author = {Daniel Windisch},
  journal= {arXiv preprint arXiv:2303.05270},
  year   = {2024}
}
R2 v1 2026-06-28T09:09:17.886Z