Phase–Entangled Quantum–Spacetime Fabric: A Theoretical Framework for Emergent Gravity and Temporal Coherence

The Phase–Entangled Quantum–Spacetime Fabric (PEQSF) framework reformulates gravity as an emergent phenomenon arising from phase-coherent quantum topology. Time is treated as an outcome of correlated phase collapse, establishing a measurable link between phase differentials and temporal flow. The τ–φ formulation provides a unified field description connecting curvature dynamics with information conservation during collapse events. This theoretical structure predicts observable deviations from standard quantum field theory through phase-sensitive detection rather than classical reflection. Potential applications include quantum radar and time-independent synchronization systems. The work aims to bridge the microscopic mechanism of quantum collapse with the macroscopic manifestation of spacetime, offering a coherent theoretical basis for emergent gravity and temporal coherence.