Systemic Asymmetry Resolution in Field Interactions: The TN Model and the Gravitonic Nature of |ψ| 2
Systemic Asymmetry Resolution in Field Interactions: The TN Model and the Gravitonic Nature of |ψ| 2
We present a phenomenological framework redefining rest mass as a processual emergent equilibrium rather than a static scalar parameter. By applying princi- ples of information theory and dynamic flow analy- sis to quantum field interactions, we model elemen- tary fermions as η-transducers. These dynamic sys- tems continuously sample the Higgs vacuum expecta- tion value, resolving the systemic asymmetry between probabilistic field fluctuations and macroscopic iner- tial stability. Identifying the wave function density |ψ| 2 as an emergent gravitonic flow ρg, we propose a modified action coupling the Einstein-Hilbert for- mulation to the localized transduction process. This model mathematically bridges systemic stability with quantum field interactions, offering verifiable predic- tions for high-eccentricity inertial fluctuations.
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