DOI: 10.1007/s10485-024-09797-6">
 

Counting functions for random objects in a category

Document Type

Article

Publication Date

2025

Department/School

Mathematics

Publication Title

Applied Categorical Structures

Abstract

In arithmetic statistics and analytic number theory, the asymptotic growth rate of counting functions giving the number of objects with order below X is studied as . We define general counting functions which count epimorphisms out of an object on a category under some ordering. Given a probability measure on the isomorphism classes of the category with sufficient respect for a product structure, we prove a version of the Law of Large Numbers to give the asymptotic growth rate as X tends towards of such functions with probability 1 in terms of the finite moments of and the ordering. Such counting functions are motivated by work in arithmetic statistics, including number field counting as in Malle’s conjecture and point counting as in the Batyrev–Manin conjecture. Recent work of Sawin–Wood gives sufficient conditions to construct such a measure from a well-behaved sequence of finite moments in very broad contexts, and we prove our results in this broad context with the added assumption that a product structure in the category is respected. These results allow us to formalize vast heuristic predictions about counting functions in general settings.

Comments

B. Alberts is a faculty member in EMU's Department of Mathematics and Statistics.

Link to Published Version

DOI: 10.1007/s10485-024-09797-6

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