Beyond General Relativity: Temporal Resonance Geometry as the Source of Discrete Structure in Spacetime

This paper advances the Chronos Theory framework by addressing the limitations of General Relativity (GR) in generating a universal discrete length scale without symmetry breaking. It introduces the concept of temporal resonance geometry as a natural origin of spacetime discreteness, preserving Lorentz invariance while offering novel, testable predictions beyond GR. The framework is positioned as a unifying extension that connects large-scale relativistic behavior with discrete quantum structure, and it details specific empirical paths for confirmation or falsification. This work lays the foundation for a deeper integration of time-structured geometry into modern physics, bridging gaps between relativistic and quantum regimes.