Source Field Theory: Topological Unified Model of Three-Dimensional Single Electromagnetic Field constructs a brand-new theoretical framework of source field-space-time coupling, breaking through the cognitive boundaries of traditional field theory and relativity in space-time measurement and electromagnetic wave propagation laws, and providing new theoretical support for engineering fields such as large-scale precision space-time synchronization and electromagnetic wave transmission calibration. Based on the core axioms and basic equations of the Source Field Theory, this paper focuses on four core engineering directions: high-precision time synchronization, electromagnetic wave propagation regulation, large-scale scientific observation, and stable operation of power systems. It systematically sorts out the application mechanism of the Source Field Theory in scenarios such as GPS global positioning and time service, distributed time sequence control of power grids, interferometric measurement of radio telescope arrays, and time delay correction of deep space communication, deduces the theoretical correction models and technical implementation paths adapted to each scenario, and designs feasible empirical verification schemes. This paper clarifies the optimization value of the Source Field Theory to the existing engineering and technical system, comprehensively expands the application boundary of the Source Field Theory, and promotes the transformation of basic physical theory into engineering practice.
Jie M. Zhang (Thu,) studied this question.