Innovative mirror gravitational quantum field theory: A dual-phase parity framework for gravitational-magnetic coupling and quantum-classical unification

The prevailing description of gravitation, rooted in Newtonian mechanics and Einstein’s general relativity (GR), successfully accounts for the spherical morphology of celestial bodies and their orbital dynamics through spacetime curvature. However, it leaves unresolved foundational questions regarding the microscopic origin of gravitational interactions, the reconciliation with quantum field theory (QFT), the nature of putative gravitons, and the mechanisms underlying long-term orbital stability and apparent “uplift” or anomalous forces in astrophysical systems. This research paper introduces the Mirror Gravitational Field Theory (MGFT), a novel conceptual and mathematical framework positing a dual-phase parity-symmetric gravitational field. In this model, each macroscopic gravitational source is coupled to a complementary “mirror” phase field characterized by parity (P) symmetry properties. Spontaneous symmetry breaking within this dual-phase system generates effective attractive and repulsive components that manifest as a gravito-magnetic coupling. Our innovative theory draws analogies to gravito-electromagnetism (GEM) in the weak-field limit of GR while incorporating quantum-inspired duality and phase transitions, offering a pathway toward unifying GR with the Standard Model forces. Key predictions include dynamic push-pull orbital stabilization, potential explanations for dark matter-like effects via mirror-phase contributions, and testable gravitational anomalies.