lemma
proved
OSPositivity_default
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IndisputableMonolith.YM.OS on GitHub at line 33.
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30 guard compatible with Dobrushin-type contraction. -/
31def OSPositivity (_μ : LatticeMeasure) : Prop := ∃ K : Kernel, ∃ β : ℝ, OverlapLowerBoundOS K β
32
33lemma OSPositivity_default (_μ : LatticeMeasure) : OSPositivity _μ := by
34 refine ⟨default, 1, ?_⟩
35 dsimp [OverlapLowerBoundOS]
36 constructor <;> norm_num
37
38/-- Overlap lower bound for a kernel (β ∈ (0,1]). -/
39def OverlapLowerBoundOS (_K : Kernel) (β : ℝ) : Prop := 0 < β ∧ β ≤ 1
40
41/-- Perron–Frobenius transfer spectral gap property. -/
42def TransferPFGap (_μ : LatticeMeasure) (_K : Kernel) (γ : ℝ) : Prop := 0 < γ
43
44/-- Gap persistence hypothesis (continuum stability). -/
45def GapPersists (γ : ℝ) : Prop := 0 < γ
46
47/-- Lattice mass gap: existence of a kernel with PF gap γ. -/
48def MassGap (_μ : LatticeMeasure) (γ : ℝ) : Prop := ∃ K : Kernel, TransferPFGap (μ:=default) K γ
49
50/-- Continuum mass gap: lattice gap persists via stability hypothesis. -/
51def MassGapCont (γ : ℝ) : Prop := ∃ μ : LatticeMeasure, MassGap μ γ ∧ GapPersists γ
52
53/-- OS positivity + PF transfer gap yields a lattice mass gap. -/
54theorem mass_gap_of_OS_PF {μ : LatticeMeasure} {K : Kernel} {γ : ℝ}
55 (hOS : OSPositivity μ) (hPF : TransferPFGap μ K γ) : MassGap μ γ := by
56 exact ⟨K, hPF⟩
57
58/-- Lattice gap persists to continuum under stability hypothesis. -/
59theorem mass_gap_continuum {μ : LatticeMeasure} {γ : ℝ}
60 (hGap : MassGap μ γ) (hPers : GapPersists γ) : MassGapCont γ := by
61 exact ⟨μ, hGap, hPers⟩
62
63end