Particles, Fields, and the Standard Model: A Natural-Causal Interpretation within Energy-Efficiency Theory

This paper builds on the rule-consequent ontology of fields and particles established in a companion document. We explore the natural-causal compatibility of the Energy-Efficiency Theory (EET) interpretation with the Standard Model of particle physics and General Relativity. We argue that the Standard Model's mathematical formalism can be understood as describing the dynamics of free-state energy (fields) and its condensation into constrained-state energy (particles). The Higgs mechanism is reinterpreted as a phase transition in which free-state vacuum energy condenses into a topologically stable configuration, generating mass. Gauge interactions are seen as the response of constrained-state eigenpotentials to…