propose a fundamental revision of the founda- tions of inertial mass, defining it not as an intrinsic scalar property but as an emergent dynamic equi- librium resulting from an informational transduc- tion process. Within this framework, fermions are modeled as η-transducers operating in the quan- tum vacuum, continuously sampling the Higgs ex- pectation value. We demonstrate that the systemic asymmetry between the probabilistic nature of the wave function and the geometric stability of Gen- eral Relativity can be resolved by identifying the probability density |ψ| 2 as a physical gravitonic flow ρg. This article mathematically analyzes the mod- ification of the Dirac Lagrangian, the emergence of the stress-energy tensor from informational gradi- ents, and the thermodynamic implications of fre- quency saturation at the relativistic limit. Finally, we present the foundations of gravitonic coalescence in molecular structures and the experimental signa- tures detectable through Raman atom interferome- try.