A perturbative correction to the nuclear equation of state has been derived from the backreaction of dense baryonic matter on the moduli fields of M-theory compactified on the Joyce orbifold T⁷/ (Z₃ ⋉ I*) with G₂ holonomy and Betti numbers (b₂, b₃) = (27, 451). The compactification has introduced a density-dependent geometric potential Qgeo = CLIG (n/n₀) EF, where CLIG = 0. 05954 has been the matter-geometry coupling at the conical singularities, established independently through fifteen Standard Model observables in companion publications. The Akmal-Pandharipande-Ravenhall (APR4) equation of state has served as the baseline. The geometric correction has enhanced the maximum mass from Mₘax (APR4) = 2. 214 M☉ to Mₘax (APR4+QGU) = 2. 31 ± 0. 07 M☉ (+4. 3%), the canonical radius to R₁. 4 = 11. 08 km (+2. 3%), and the tidal deformability to Λ₁. 4 = 256 (+17%), all consistent with PSR J0740+6620, NICER, and GW170817 constraints. The coupling CLIG = 0. 05954 has been the same constant that has simultaneously constrained the Hubble tension, the S₈ tension, the primordial lithium problem, and the strong CP problem. Zero adjustable parameters have been introduced beyond those already present in APR4
Moustafa Radwan (Tue,) studied this question.