Geometric Resolution of the Great Attractor Anomaly through Cosmic Energy Field Dynamics Theory (CEIT)

The Great Attractor phenomenon—manifesting as 600 km/s coherent peculiar velocities across 150 Mpc scales—remains unexplained within ΛCDM cosmology, requiring dark matter overdensities fifty times the observed baryonic content. We demonstrate that Cosmic Energy Inversion Theory provides a geometric resolution through space time torsion sourced by primordial energy field gradients ℰ(x,t). The framework attributes observed velocities to geometric pressure ρ_geo ∝ (∇δℰ)² rather than unseen matter, eliminating the mass deficit while preserving general relativistic consistency. Energy field topology naturally generates cosmic web nodes at Great Attractor coordinates, predicting coherent large-scale flows extending to the Shapley Supercluster. The theory yields falsifiable predictions including terahertz synchrotron emission F_ν = (4.8 ± 0.7)×10⁻¹⁸ W/m²/Hz detectable by SKA Phase 2, velocity profile maxima at r_max = 52 ± 8 Mpc testable via Euclid surveys, and three-dimensional ℰ-field reconstruction through DESI peculiar velocity measurements. Confirmation would establish geometric field dynamics as the physical mechanism underlying large-scale structure formation.