Based on Status-Relational Entropy (SRE) Dynamics, this paper redefines light within a dimension-free causal network. Here, "0" and "1" represent two topological states of fundamental causal knots. Light is not an independent material substance, but an open-ended relational topological ribbon without internal circulation. Its inherent 180-degree Möbius twist guarantees instantaneous, bidirectional information coupling. Empirical wavelengths are macroscopic geometric projections of the coupled information density against the uniform 0-1 global background. Under low densities, the ribbon triggers an avoidance rule near emergent obstacles, manifesting as diffraction. When internal density exceeds particle stability limits, spontaneous topological annihilation occurs, manifesting in classical theory as Hawking radiation. Furthermore, the speed of light delay represents the generational lag of background coupling, while the periodic variation of the Hubble Constant projects the tug-of-war between microscopic 0-1 superposition and macroscopic network convergence. This structural inference provides a new theoretical foundation for exploring cosmic causal knots and macroscopic energy theories.
Yue Lu (Wed,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: