Abstract High-energy physics, interpreted through the ICQER (Informational Constraints & Quantum Emergent Reality) framework, reveals that particles, fields, and forces are not fundamental entities but emergent phenomena arising from the propagation and resolution of informational constraints within a universal event network. This volume presents a comprehensive reformulation of high-energy processes—from particle interactions and symmetry breaking to quantum gravity and unification—as manifestations of networked informational rules operating at extreme energy scales. By treating energy as informational tension and interactions as constraint negotiations, ICQER offers a unified lens for understanding the Standard Model, predicting physics beyond it, and guiding experimental design. This perspective reconciles quantum mechanics, relativity, and gravity under a single informational ontology, providing both conceptual clarity and predictive power for the next generation of particle physics and cosmology.
Radhakrishnan Jayaraman (Tue,) studied this question.