This preprint introduces the Quantum Continuous Present Theory (QCPT), a conceptual framework proposing that time is an emergent physical property generated by the quantum dynamics of matter. Rather than treating time as a preexisting background parameter, QCPT postulates that material systems possess micro-temporal pulses (MTPs) associated with their internal quantum evolution, and that the global structure of cosmic time emerges from the collective synchronization—partial, imperfect, gravity-modulated and relativistic—of these pulses. Within this framework, space and geometry are likewise not preexisting background entities, but emerge relationally from the collective synchronization, interference, and stabilization of multiple MTPs. A pre-geometric domain is proposed as a minimal physical substrate, devoid of distances and directions, yet capable of sustaining intrinsic energetic rhythms from which temporal and spatial order can subsequently emerge through synchronization processes. Additionally, a reinterpretation of the photon is introduced, treating it as a limiting case of pure phase propagation. The absence of proper time for massless entities is not regarded as a kinematic anomaly, but as a natural consequence of the fact that time generation requires the presence of an internal micro-temporal pulse. In this context, Lorentz invariance is preserved and reinterpreted as an expression of the physical limits of temporal emergence, rather than as a direct description of the flow of time. Finally, the integrated roadmap describes possible directions for future mathematical development, suggesting how synchronization dynamics may give rise to spacetime structure at both local and cosmological scales. The goal of QCPT is not to provide a complete mathematical formalization—which remains open—but to propose a consistent ontological basis upon which further formalizations and falsifiable extensions may be constructed. Note: This version 0.4 differs from previous versions by adding a section dedicated to the photon, refining certain details, and integrating the complete conceptual framework together with the roadmap into a single unified document.
Jose Luis Angulo Brenes (Tue,) studied this question.