Strong non-principality of positive codegree Tur\'an density
Pith reviewed 2026-06-26 16:32 UTC · model grok-4.3
The pith
For every k ≥ 3 there exist two k-graphs F1 and F2 such that 0 < γ⁺(F1, F2) < min{γ⁺(F1), γ⁺(F2)}.
A machine-rendered reading of the paper's core claim, the machinery that carries it, and where it could break.
Core claim
The positive codegree Turán density γ⁺(F) of a k-graph family F is the supremum, over all F-free k-graphs G on n vertices, of the limit of δ⁺_{k-1}(G)/n as n tends to infinity, where δ⁺_{k-1}(G) is the minimum codegree among all (k-1)-sets that lie in at least one edge. The paper shows this density fails principality in a strong sense: for every k ≥ 3 there exist two k-graphs F1 and F2 satisfying the strict inequality above.
What carries the argument
The positive codegree Turán density γ⁺(F), defined as the largest asymptotic ratio of minimum positive codegree to n in F-free k-graphs.
Load-bearing premise
Suitable k-graphs F1 and F2 exist whose positive codegree densities satisfy the strict inequality when taken together.
What would settle it
An explicit k together with a proof that every pair of k-graphs satisfies either γ⁺(F1,F2)=0 or γ⁺(F1,F2) equals the minimum of the two separate values.
read the original abstract
The \emph{minimum positive codegree} $\delta^+_{k-1}(G)$ of a $k$-graph $G$ is the minimum, over all $(k-1)$-sets that lie in at least one edge, of the number of edges containing that set. The \emph{positive codegree Tur\'an density} of a $k$-graph family $\mathcal{F}$ is the asymptotically maximum value of $\delta^+_{k-1}(G)/n$ over all $\mathcal{F}$-free $k$-graphs $G$ with $n\to\infty$ vertices. In this note, we establish a strong version of non-principality with respect to this density by proving that for every $k\ge3$ there exist two $k$-graphs $F_1$ and $F_2$ such that $$ 0<\gamma^+(F_1, F_2) < \min\{\gamma^+(F_1), \gamma^+(F_2)\}. $$
Editorial analysis
A structured set of objections, weighed in public.
Referee Report
Summary. The manuscript proves that for every integer k ≥ 3 there exist k-uniform hypergraphs F1 and F2 such that the positive codegree Turán density satisfies 0 < γ⁺(F1, F2) < min{γ⁺(F1), γ⁺(F2)}. The argument proceeds by explicit construction of suitable F1 and F2 followed by direct verification that the three relevant density bounds hold for those hypergraphs.
Significance. If the constructions and bound verifications are correct, the result supplies concrete examples realizing a strong form of non-principality for the positive codegree Turán density. The explicit nature of the constructions (rather than an existence argument via probabilistic method or compactness) is a strength, as it allows direct checking of the three inequalities γ⁺(F1, F2) > 0, γ⁺(F1, F2) < γ⁺(F1), and γ⁺(F1, F2) < γ⁺(F2). This advances the study of codegree densities beyond the usual single-graph case.
minor comments (2)
- [Abstract] The abstract and introduction should explicitly name the specific k-graphs F1 and F2 (or at least their edge sets) used in the construction, rather than deferring all details to the proof section.
- In the verification of the upper bound γ⁺(F1, F2) < min{γ⁺(F1), γ⁺(F2)}, confirm that the same sequence of host graphs is used for all three quantities so that the strict inequality is not an artifact of different limiting constructions.
Simulated Author's Rebuttal
We thank the referee for their positive summary, recognition of the explicit constructions as a strength, and recommendation of minor revision. No major comments were listed in the report.
Circularity Check
No significant circularity identified
full rationale
The paper establishes an existence result for every k≥3 by explicit construction of two k-graphs F1 and F2, then directly verifies the three required positive codegree density bounds on those specific hypergraphs. No step reduces a claimed prediction or density to a fitted parameter, self-definition, or load-bearing self-citation; the argument is a self-contained combinatorial verification whose inputs (the chosen hypergraphs and their edge counts) are independent of the target inequality.
Axiom & Free-Parameter Ledger
Reference graph
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