We propose a geometric reinterpretation of Dark Matter not as particulate matter, but as regionsof low informational diffusivity (D ≪ 1) within a 12-dimensional subspace. Under the QuantumDiffusion (DQ) framework, we demonstrate that neutrinos act as topological probes capable oftraversing these diffusivity gradients. We postulate that the tensions recently observed in oscillationparameters (e.g., the JUNO solar-reactor discrepancy) arise from a non-trivial coupling betweenneutrino flavor and the local background metric. Furthermore, we show that the “Sterile Neutrino”can be topologically mapped to a vortex state orthogonal to the 3D brane, effectively behaving asa transient bubble of Dark Matter. This letter offers a unified geometric explanation for the darksector and neutrino anomalies.
VARCO et al. (Tue,) studied this question.