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electron_strength
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IndisputableMonolith.Physics.RecognitionCoupling on GitHub at line 72.
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69 True
70
71/-- The derived recognition strength for the electron. -/
72def electron_strength (rg_val : ℝ) : ℝ := recognition_strength Fermion.e rg_val
73
74/-- Lower bound on the geometric residue for the electron (from the proven gap bounds). -/
75theorem electron_geo_gt_13_953 : (13.953 : ℝ) < geometric_residue Fermion.e := by
76 -- ZOf e = 1332, so this is exactly the lower bound on gap(1332).
77 have hZ : ZOf Fermion.e = 1332 := by native_decide
78 simpa [geometric_residue, hZ] using (gap_1332_bounds).1
79
80/-- A basic (non-universal) strength statement: if `rg_val = 0.04942583`,
81then the ratio `F(Z)/f_RG` is certainly > 100 for the electron. -/
82theorem electron_strength_gt_100 (rg_val : ℝ) (h_rg : rg_val = 0.04942583) :
83 (100 : ℝ) < electron_strength rg_val := by
84 unfold electron_strength recognition_strength
85 -- rewrite rg residue value
86 rw [h_rg]
87 have hden_pos : (0 : ℝ) < (0.04942583 : ℝ) := by norm_num
88 have hnum_gt : (13.953 : ℝ) < geometric_residue Fermion.e := electron_geo_gt_13_953
89 -- It suffices to show 100 * 0.04942583 < 13.953.
90 have h100 : (100 : ℝ) * (0.04942583 : ℝ) < (13.953 : ℝ) := by norm_num
91 have hnum_gt' : (100 : ℝ) * (0.04942583 : ℝ) < geometric_residue Fermion.e :=
92 lt_trans h100 hnum_gt
93 -- divide by positive denominator
94 exact (lt_div_iff₀ hden_pos).2 hnum_gt'
95
96/-! ## Structural Dominance -/
97
98/-- The "Zero Parameter" hypothesis: The mass is determined by the Geometric Residue,
99 not the Perturbative Residue. The RG running is a small correction or shadow.
100
101 m_i = m_struct * φ^(F(Z))
102