Protocol 4: Dark Matter Ratio
Status: Testing large-scale ratio invariance vs. local projection variance
Theoretic Postulate
In the AToE, Dark Matter is not a particle, but a Global Geometric Coupling Constant of the 12D-to-3D projection. The total gravitational mass is governed by the Local Projection Efficiency (ηP).
This resolves the paradox of "DM-free" galaxies: they are regions of perfect Arithmetic Phase-Locking (ηP → 1), where the informational "echo" (Dark Matter) vanishes.
Mtotal = Mb (1 + RAToE · (1 - ηP))
Experimental Instructions: Large-Scale Invariance
- Void Calibration: Measuring the ratio ΩDM/Ωb in cosmic super-voids via weak lensing. The AToE predicts the raw global ratio R ≈ 5.31 in these basal states.
- Velocity Dispersion: Analyzing "DM-free" galaxies. AToE predicts these are regions of Localized Maximum Stability, which should correlate with local variations in the fine-structure constant (α).
- Baryon Acoustic Oscillations (BAO): Verifying the 12-dimensional projection nodes in the large-scale distribution of matter.
Falsification Bounds
| VERIFICATION |
Integrated large-scale ratio strictly at 5.312. DM halos following GUE spacing instead of particle density profiles. |
| FALSIFICATION |
Detection of Self-Interaction (σ/m > 0) in cluster mergers (e.g., Bullet Cluster) or detection of an independent Dark Matter particle. |