On the problem of stability of abstract elementary classes of modules
Pith reviewed 2026-05-17 02:47 UTC · model grok-4.3
The pith
Not every abstract elementary class of R-modules with pure embeddings is stable.
A machine-rendered reading of the paper's core claim, the machinery that carries it, and where it could break.
Core claim
We answer this question in the negative by constructing unstable abstract elementary classes (K, ≤_pure) of torsion-free abelian groups. We prove in ZFC that if R is any ring and (K, ≼) is an abstract elementary class of R-modules which is κ-local for some κ ≥ LS(K, ≼), then (K, ≼) is almost stable. As a consequence, assuming the existence of a strongly compact cardinal κ, we have that every abstract elementary class (K, ≼) of R-modules with amalgamation satisfying κ > LS(K, ≼) is stable.
What carries the argument
The construction of unstable abstract elementary classes of torsion-free abelian groups under the pure submodule relation, which serves as a counterexample to universal stability.
If this is right
- Abstract elementary classes of torsion-free abelian groups can be unstable when using pure embeddings.
- κ-local abstract elementary classes of R-modules are almost stable.
- Almost stability is equivalent to stability if the class has the amalgamation property.
- Every abstract elementary class of R-modules with amalgamation is stable, assuming a strongly compact cardinal larger than the Löwenheim-Skolem number.
Where Pith is reading between the lines
- The negative result implies that without locality or tameness, stability may fail for module AECs.
- The introduction of almost stability provides a new tool for analyzing stability-like properties in classes without full amalgamation.
- Future work could explore whether the instability construction extends to modules over other rings.
Load-bearing premise
The particular choice of torsion-free abelian groups and pure embeddings in the construction must result in instability.
What would settle it
If the constructed class of torsion-free abelian groups turns out to have at most as many types as the size of its models, the claim of instability would be false.
read the original abstract
It is an open problem of Mazari-Armida whether every abstract elementary class of $R$-modules $(\mathbf{K}, \leq_{\mathrm{pure}})$, with $\leq_{\mathrm{pure}}$ the pure submodule relation, is stable. We answer this question in the negative by constructing unstable abstract elementary classes $(\mathbf{K}, \leq_{\mathrm{pure}})$ of torsion-free abelian groups. On the other hand, we prove (in $\mathrm{ZFC}$) that if $R$ is any ring and $(\mathbf{K}, \preccurlyeq)$ is an abstract elementary class of $R$-modules which is $\kappa$-local (also called $\kappa$-tame) for some $\kappa \geq \mathrm{LS}(\mathbf{K}, \preccurlyeq)$, then $(\mathbf{K}, \preccurlyeq)$ is almost stable, where almost stability is a new notion of independent interest that we introduce in this paper, and which is equivalent to the usual notion of stability under the assumption of amalgamation. As a consequence, assuming the existence of a strongly compact cardinal $\kappa$, we have that every abstract elementary class $(\mathbf{K}, \preccurlyeq)$ of $R$-modules with amalgamation satisfying $\kappa > \mathrm{LS}(\mathbf{K}, \preccurlyeq)$ is stable.
Editorial analysis
A structured set of objections, weighed in public.
Referee Report
Summary. The paper negatively answers Mazari-Armida's open question by constructing an unstable AEC (K, ≤_pure) of torsion-free abelian groups. It introduces the new notion of almost stability, proves in ZFC that any κ-tame AEC of R-modules is almost stable (with equivalence to stability under amalgamation), and derives that a strongly compact cardinal implies stability for tame AECs of R-modules with amalgamation.
Significance. If the explicit construction of instability holds, the negative answer resolves a concrete open problem in the model theory of modules and AECs. The ZFC theorem on tameness implying almost stability is a clean, parameter-free result of independent interest, and the large-cardinal consequence follows standard techniques while highlighting the role of amalgamation. The paper ships a new definition that is shown equivalent to stability under a natural hypothesis.
major comments (2)
- [§3] §3 (construction of the unstable class of torsion-free groups): the argument that (K, ≤_pure) satisfies the AEC axioms and admits an order property (or |S(M)| > |M|) under pure embeddings is only sketched; a concrete verification is needed that the chosen groups and embeddings actually produce instability rather than collapsing to stability via preservation of pp-formulas.
- [Theorem on almost stability] Theorem on almost stability (ZFC part): while the derivation from κ-locality is claimed to be parameter-free, the precise relation between the new notion and the standard definition of stability (especially the role of the monster model or Galois types) should be stated as a numbered lemma to make the load-bearing step explicit.
minor comments (2)
- [Introduction and §2] Notation for pure embeddings (≤_pure vs. ≼) is used inconsistently in early sections; standardize throughout.
- [Final corollary] The statement of the strongly-compact consequence should explicitly record the hypothesis κ > LS(K, ≼) in the theorem statement rather than only in the surrounding text.
Simulated Author's Rebuttal
We thank the referee for their careful reading of the manuscript and for the constructive comments. We address each major comment below and will revise the paper to incorporate the suggested improvements.
read point-by-point responses
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Referee: [§3] §3 (construction of the unstable class of torsion-free groups): the argument that (K, ≤_pure) satisfies the AEC axioms and admits an order property (or |S(M)| > |M|) under pure embeddings is only sketched; a concrete verification is needed that the chosen groups and embeddings actually produce instability rather than collapsing to stability via preservation of pp-formulas.
Authors: We agree that the verification in §3 is currently only sketched and that a more explicit check is required. In the revised manuscript we will expand this section with concrete arguments verifying that the class of torsion-free abelian groups under pure embeddings satisfies all AEC axioms, and that the specific groups and embeddings chosen yield an order property (equivalently, more than |M| many Galois types over M) that is not lost through the preservation of pp-formulas. revision: yes
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Referee: [Theorem on almost stability] Theorem on almost stability (ZFC part): while the derivation from κ-locality is claimed to be parameter-free, the precise relation between the new notion and the standard definition of stability (especially the role of the monster model or Galois types) should be stated as a numbered lemma to make the load-bearing step explicit.
Authors: We accept this recommendation. To clarify the relationship between almost stability and ordinary stability, we will add a new numbered lemma that explicitly connects the two notions, including the precise role played by the monster model and Galois types in the argument from κ-locality. This lemma will be placed immediately before the statement of the main almost-stability theorem. revision: yes
Circularity Check
No significant circularity; construction and theorems are independent
full rationale
The paper provides an explicit ZFC construction of an unstable AEC (K, ≤_pure) of torsion-free abelian groups, directly exhibiting the order property to witness instability. The almost-stability notion is introduced independently via κ-locality and proved equivalent to stability only when amalgamation is assumed separately. No step reduces by definition or by fitting to its own inputs; the negative answer to Mazari-Armida's question rests on the concrete construction rather than any self-referential renaming or imported uniqueness theorem. Self-citations, if present, are not load-bearing for the central claims, which remain externally verifiable via the exhibited groups and embeddings. The strongly compact cardinal consequence follows from standard assumptions without circular reduction.
Axiom & Free-Parameter Ledger
axioms (2)
- standard math ZFC set theory
- domain assumption Existence of a strongly compact cardinal larger than LS(K)
invented entities (1)
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almost stability
no independent evidence
Forward citations
Cited by 2 Pith papers
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Examples of non-tame abstract elementary classes of abelian groups
Constructs K1, an AEC of torsion-free abelian groups that is not finitely tame but is countably tame, plus families K2(2^μ) that fail tameness below any regular uncountable μ below the first measurable cardinal.
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An unstable abstract elementary class of modules: A variation of Paolini-Shelah's example
A new abstract elementary class of torsion-free abelian groups is built that is unstable, has JEP and no maximal models but no AP, and is (<aleph0)-tame.
Reference graph
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