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xiMap_ne_zero
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IndisputableMonolith.NumberTheory.XiJBridge on GitHub at line 53.
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50
51@[simp] theorem xiMap_pos (σ : ℝ) : 0 < xiMap σ := Real.exp_pos _
52
53theorem xiMap_ne_zero (σ : ℝ) : xiMap σ ≠ 0 := (xiMap_pos σ).ne'
54
55/-- The critical line maps to x = 1, the unique minimum of J. -/
56@[simp] theorem xiMap_at_half : xiMap (1 / 2) = 1 := by
57 simp [xiMap]
58
59/-- **Functional reflection acts as reciprocal inversion.**
60 This is the bridge equation: ξ(s) = ξ(1−s) becomes J(x) = J(1/x). -/
61theorem xiMap_reflection (σ : ℝ) : xiMap (1 - σ) = (xiMap σ)⁻¹ := by
62 simp only [xiMap]
63 rw [show 2 * ((1 : ℝ) - σ - 1 / 2) = -(2 * (σ - 1 / 2)) from by ring]
64 simp [Real.exp_neg]
65
66/-- The defect-coordinate map is strictly monotone on the strip. -/
67theorem xiMap_strictMono : StrictMono xiMap := by
68 intro a b hab
69 simp only [xiMap]
70 exact Real.exp_strictMono (by linarith)
71
72/-! ## §2. Connection to ZeroLocationCost -/
73
74/-- xiMap agrees with exp(zeroDeviation) from ZeroLocationCost. -/
75theorem xiMap_eq_exp_zeroDeviation (ρ : ℂ) :
76 xiMap ρ.re = Real.exp (zeroDeviation ρ) := by
77 simp [xiMap, zeroDeviation]
78
79/-! ## §3. J-cost in strip coordinates -/
80
81/-- J-cost on defect coordinates gives the cosh form of the zero defect:
82 J(e^{2η}) = cosh(2η) − 1 where η = σ − 1/2. -/
83theorem jcost_xiMap_eq_cosh (σ : ℝ) :