Integrality over ideal semifiltrations
Abstract
We study integrality over rings (all commutative in this paper) and over ideal semifiltrations (a generalization of integrality over ideals). We begin by reproving classical results, such as a version of the "faithful module" criterion for integrality over a ring, the transitivity of integrality, and the theorem that sums and products of integral elements are again integral. Then, we define the notion of integrality over an ideal semifiltration (a sequence of ideals satisfying and for all ), which generalizes both integrality over a ring and integrality over an ideal (as considered, e.g., in Swanson/Huneke, "Integral Closure of Ideals, Rings, and Modules"). We prove a criterion that reduces this general notion to integrality over a ring using a variant of the Rees algebra. Using this criterion, we study this notion further and obtain transitivity and closedness under sums and products for it as well. Finally, we prove the curious fact that if , and are three elements of a (commutative) -algebra (for a ring) such that is both integral over and integral over , then is integral over . We generalize this to integrality over ideal semifiltrations, too.
Cite
@article{arxiv.1907.06125,
title = {Integrality over ideal semifiltrations},
author = {Darij Grinberg},
journal= {arXiv preprint arXiv:1907.06125},
year = {2019}
}
Comments
49 pages. Undergraduate work I have recently revised for reference in a forthcoming paper. A detailed version is available as an ancillary file or from http://www.cip.ifi.lmu.de/~grinberg/algebra/algebra.html#integrality