The fine structure constant α was previously derived from the geometry of a Planck-scale foam with truncated octahedral cell structure (DOI: 10. 5281/zenodo. 19011758). That derivation used three structural ingredients: two endpoints per displacement event (Axiom Zero), d = 3 spatial dimensions, and the Gaussian return weight π. We show here that these identical three ingredients, applied to virtual loop processes rather than static coupling, produce the one-loop QED beta function coefficient b₀EM = 4/3 and the complete running formula β (α) = 2α²/ (3π). The running coupling α (MZ) = 1/128. 95 is recovered to 0. 7% from α (0) = 1/137 using only foam-derived inputs. The 2-loop coefficient b₁EM = 352/27 is derived from the full charged sector (Parts XXXI, XXXV of the Core Framework v2). The physical mapping from foam sectors to Standard Model fields is a hypothesis confirmed numerically; the Lorentz invariance emergence from discrete Oₕ symmetry remains an open problem.
Luke Alexander Martin (Tue,) studied this question.
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