This paper demonstrates that the Quantum Core Framework provides a complete and quantitative resolution to the cosmic matter–antimatter asymmetry puzzle. The three Sakharov conditions are naturally satisfied within the framework: baryon number violation is inherent in the SO(10) gauge group that emerges uniquely from the Kitaev ν=6ν=6 topological order; a new, intrinsically quantum-gravitational source of CP violation arises from the braiding phases of non-Abelian Ising anyons, which enter the Yukawa couplings of right-handed neutrinos as complex topological phases; and out-of-equilibrium dynamics are provided by the decay of heavy right-handed neutrinos during the SO(10) phase transition. Using the seesaw mechanism and thermal leptogenesis, the CP asymmetry parameter is computed as ϵ1∼−3.5×10−3ϵ1∼−3.5×10−3, determined solely by the topological braiding phase Δθbraid=π/4Δθbraid=π/4 of Ising anyons. The resulting baryon-to-photon ratio is ηB≈6.0×10−10ηB≈6.0×10−10, in excellent agreement with the observed value ηBobs=(6.12±0.04)×10−10ηBobs=(6.12±0.04)×10−10. No free parameters are introduced beyond those already fixed by the framework. Together with the resolution of the dark matter puzzle via Planck core remnants, this work establishes the Quantum Core Framework as a unified and predictive account of the two most prominent cosmological anomalies.
Wengang Yu (Fri,) studied this question.