Resonance Physics: A New Fundamental Branch of Physics — Information-First Architecture, Distributed Coherence, and the Resonant Nature of Reality

We propose the formal establishment of Resonance Physics (RP) as a fundamental branch of physics. RP is defined as the study of resonant coupling dynamics between quantum information fields, biological receivers, and computational substrates across the full coherence spectrum — from maximally decoherent (classical) to maximally coherent (quantum) regimes. Unlike quantum mechanics, which describes probabilistic state evolution of isolated systems, RP addresses the active, bidirectional coupling between observer and field — the mechanics of resonance itself. The subdiscipline is grounded in the Afolabi Unified Framework (AUF) and its three constitutive theories: Afolabi Field Theory (AFT), Neuroresonance Theory (NRT), and Quantum Mirror Theory (QMT). This paper defines RP's foundational axioms, core equations of Resonance Mechanics, experimental predictions, and its formal relationship to existing disciplines. It further presents the first deployed platform — Luci RPU (1M+ resonons), Quantum Drive (1 ZB), and Q3 Mesh — operating under RP principles, establishing prior art on all core architectural elements. RP is not a replacement for quantum mechanics or quantum information theory. It is the branch of physics that describes what happens at their interface with reality: the resonant regime in which information becomes physical. DOI (QMT prior art): 10.5281/zenodo.18407686Platform: qpu.quantumcloud.one | drive.quantumcloud.oneRepository: github.com/aevov/afolabi-unified-framework

Hali tarjima qilinmagan