We present the first empirical connection between quantum entanglement and cosmological observations through precise measurement of a universal structural parameter δquantum = 0. 014009 ± 0. 001472. Using IBM Quantum hardware and GHZ states (N=2–9 qubits), we establish a 61-order-of-magnitude scale unification connecting quantum coherence (10⁻³⁵ m), galactic dynamics (10²¹ m), and cosmological observations (10²⁶ m). Key Results: Power-law fit: R² = 0. 9999 CMB fit quality: χ²ᵣed = 0. 41 (vs ΛCDM: 0. 43) Velocity scaling: βfitted = 8. 23, βₚredicted = 8. 41 (2% agreement) Parity asymmetry: 23% improvement over ΛCDM Applying Structure-Residual Cosmology (SRC) theory to Planck 2018 CMB data (ℓ=2–30), we achieve fit quality comparable to ΛCDM while predicting even-odd multipole parity structure from quantum vacuum states. Our results suggest dark matter represents structural residuals (δ) rather than particle content, demonstrating that gravitational dynamics depend not only on mass-energy distribution but also on quantum-mechanical structure preservation across scales. This work establishes formal causation (forma causalis) as a measurable physical principle, bridging Aristotelian-Thomistic metaphysics with modern quantum information theory. Philosophy: Forma causalis seipsam manifestat (Formal causation reveals itself) All experimental data obtained using IBM Quantum's ibmₜorino backend. Complete data and code included for full reproducibility.
Takagi Takayuki (Thu,) studied this question.
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