Fractal Quantum Field Theory: Complete Prediction Ledger and Experimental Forecast Overview

Two-page prediction and experimental overview document for the Fractal Quantum Field Theory (FQFT) research program. This publication summarizes the primary numerical predictions, fixed-point structures, and experimental test windows derived from the FQFT framework. The theory models Planck-scale spacetime as a q-regular Ramanujan graph with spectral gap structure and studies the Standard Model as the emergent low-dimensional limit of a field theory defined on a fractal measure space. The document presents: core FQFT input parameters, derived Standard Model structures, neutrino ordering predictions, CKM and PMNS predictions, Higgs-sector forecasts, dark matter and axion test windows, comparison tables against PDG 2024 reference values, distinctions from Geometric Unity, String Theory, and Loop Quantum Gravity. The predictions card serves as: a compact overview of the ten-paper FQFT research program, an experimental roadmap, a phenomenological summary, and a companion reference to the reproducibility software package fqftcomputeᵥ2. py. Primary experimental reference targets include: JUNO, KM3NeT, HL-LHC, CASPEr-Electric, LZ, XENONnT, CMB-S4. This publication is intended as a concise public-facing and research-facing summary of the FQFT framework and its phenomenological predictions.