Systems of ideals parametrized by combinatorial structures

Abstract

A symmetric chain of ideals is a rule that assigns to each finite set S an ideal IS in the polynomial ring C[xi]i ∈ S such that if φ S T is an embedding of finite sets then the induced homomorphism φ* maps IS into IT. Cohen proved a fundamental noetherian result for such chains, which has seen intense interest in recent years due to a wide array of new applications. In this paper, we consider similar chains of ideals, but where finite sets are replaced by more complicated combinatorial objects, such as trees. We give a general criterion for a Cohen-like theorem, and give several specific examples where our criterion holds. We also prove similar results for certain limiting situations, where a permutation group acts on an infinite variable polynomial ring. This connects to topics in model theory, such as Fra\"iss\'e limits and oligomorphic groups.