English

Axiomatic Closure Operations, Phantom Extensions, and Solidity

Commutative Algebra 2018-02-01 v2

Abstract

In this article, we generalize a previously defined set of axioms for a closure operation that induces balanced big Cohen-Macaulay modules. While the original axioms were only defined in terms of finitely generated modules, these new ones will apply to all modules over a local domain. The new axioms will lead to a notion of phantom extensions for general modules, and we will prove that all modules that are phantom extensions can be modified into balanced big Cohen-Macaulay modules and are also solid modules. As a corollary, if RR has characteristic p>0p>0 and is FF-finite, then all solid algebras are phantom extensions. If RR also has a big test element (e.g., if RR is complete), then solid algebras can be modified into balanced big Cohen-Macaulay modules. (Hochster and Huneke have previously demonstrated that there exist solid algebras that cannot be modified into balanced big Cohen-Macaulay algebras.) We also point out that tight closure over local domains in characteristic pp generally satisfies the new axioms and that the existence of a big Cohen-Macaulay module induces a closure operation satisfying the new axioms.

Keywords

Cite

@article{arxiv.1511.04286,
  title  = {Axiomatic Closure Operations, Phantom Extensions, and Solidity},
  author = {Geoffrey D. Dietz},
  journal= {arXiv preprint arXiv:1511.04286},
  year   = {2018}
}

Comments

final revision; to appear in J. Algebra

R2 v1 2026-06-22T11:44:31.250Z