Experimental Signatures of Unified Fractal Quantum Field Theory (UFQFT): From Particle Resonances to Cosmological Observations

The Unified Fractal Quantum Field Theory (UFQFT) provides a novel framework in which all fundamental particles and interactions emerge as resonances of unified energy (Φ) and charge (Ψ) fields within a fractal spacetime of dimension approximately D ≈ 2.7. This approach offers a coherent description of particle properties, nuclear processes, and cosmological phenomena as manifestations of underlying fractal geometries. UFQFT makes experimentally testable predictions across multiple scales, from micro-scale particle physics experiments and nuclear decay processes to macro-scale astrophysical and cosmological observations, including gravitational waves, cosmic microwave background anomalies, and dark matter/energy distributions. By unifying these domains, UFQFT has the potential to address unresolved issues in the Standard Model, provide insight into the nature of dark matter and dark energy, and offer explanations for observed cosmological anomalies, establishing a framework for comprehensive experimental validation.