Local Geometric Foundation of Fundamental Forces: The P-B1–B2 Triangulation and Force Unification in Entanglement-Driven Cosmology

We derive an explicit mechanism for the entanglement generation postulated in the Entanglement-Driven Cosmological Expansion (EDCE) framework. By modeling decoherence events as Bell pair creation between local and holographic boundary degrees of freedom, we show that the four fundamental forces emerge naturally from distinct entanglement patterns distributed across 4-qubit Planck-area cells. Pattern 2-2 (balanced local-boundary distribution) reproduces quantum chromodynamics confinement and asymptotic freedom with coupling αs ∼1 at low energies. Pattern 3-1 (local-heavy asymmetry) yields electromagnetic coupling αEM ≈1/137 from renormalization group running with vacuum polarization screening. Pattern 1-3 (boundary-heavy asymmetry) gives weak force parity violation and massive mediators (MW ≈80 GeV). Pattern 0-4 (pure boundary encoding) recovers Newtonian gravity and general relativity, with extreme weakness (αgrav ∼10−38 at atomic scales) arising from holographic dilution. We further demonstrate that time and gravity are equivalent phenomena—both emerging as the rate and modulation of information processing on the holographic boundary. The framework predicts coupling constant ratios from first principles, achieving 5% agreement with Standard Model values, and makes testable predictions for trans-aeon force invariance observable in future CMB-S4 measurements.