Experimental Verification Protocols for the Arithmetic Theory of Everything: A Roadmap to Falsifiability

This white paper outlines a rigorous experimental program to test the Arithmetic Theory of Everything (AToE). While the AToE offers a compelling theoretical resolution to various cosmological paradoxes, this document focuses exclusively on empirical falsifiability. It provides five specific, high-precision testing protocols designed for current and near-future astrophysical and metrological instrumentation. Key Experimental Protocols included: Cosmic Birefringence: Detailed procedure for isolating a frequency-independent polarization rotation of in CMB data (Planck/Simons Observatory). Fundamental Constant Drift: A protocol for detecting a temporal drift in the fine-structure constant at the level using dual-species optical lattice clocks. Gravitational Wave Residuals: Statistical methods to identify "Arithmetic Aliasing" and GUE spectral signatures in the post-merger noise of LIGO/Virgo events. Dark Matter Invariance: A weak lensing protocol to verify the 5.31:1 mass ratio in cosmic voids, distinguishing geometric projection from particle-based models. Quantum Interface Resonance: Monitoring decoherence modulations at the 8 Hz "vacuum update rate" in shielded quantum systems. By providing clear numerical targets and specific "Kill-Criteria" (falsification bounds), this paper adheres to the Popperian standard of scientific validity. It serves as a manual for experimentalists to either validate the deterministic arithmetic nature of the universe or definitively falsify the AToE framework. Supplement to: "Cosmological Implications of the Arithmetic Theory of Everything (AToE): Resolving Ten Fundamental Paradoxes" (https://zenodo.org/records/19604658).