Complexity and curvature of (pairs of) Cohen-Macaulay modules, and their applications

TL;DR

This paper investigates the complexity and curvature of pairs of Cohen-Macaulay modules, establishing bounds and characterizations that connect these invariants to the structure of the underlying rings, including complete intersections.

Contribution

It introduces new notions of Ext and Tor curvature for pairs of modules and uses these to characterize complete intersection rings and regular rings via module invariants.

Findings

Bounds on curvature of the residue field in terms of module curvature and multiplicity.

Characterization of complete intersection rings through complexity and curvature of Cohen-Macaulay modules.

Partial progress on open questions relating ring properties to module invariants.

Abstract

The complexity and curvature of a module, introduced by Avramov, measure the growth of Betti and Bass numbers of a module, and distinguish the modules of infinite homological dimension. The notion of complexity was extended by Avramov-Buchweitz to pairs of modules that measure the growth of Ext modules. The related notion of Tor complexity was first studied by Dao. Inspired by these notions, we define Ext and Tor curvature of pairs of modules. The aim of this article is to study (Ext and Tor) complexity and curvature of pairs of certain CM (Cohen-Macaulay) modules, and establish lower bounds of complexity and curvature of pairs of modules in terms of that of a single module. It is known that among all modules, the residue field has maximal complexity and curvature, moreover they characterize complete intersection local rings. As applications of our results, we provide some upper bounds of the curvature of the residue field in terms of curvature and multiplicity of any nonzero CM module. As a final upshot, these allow us to characterize complete intersection local rings (including hypersurfaces and regular rings) in terms of complexity and curvature of pairs of certain CM modules. In particular, under some additional hypotheses, we characterize complete intersection and regular local rings via injective curvature of the ring and that of the module of K\"{a}hler differentials respectively. Thus, we make partial progress towards a question of Christensen-Striuli-Veliche, as well as another by Vasconcelos.