Furkejuvvon:
| Váldodahkki: | |
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| Materiálatiipa: | Recurso digital |
| Giella: | |
| Almmustuhtton: |
Zenodo
2026
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| Fáttát: | |
| Liŋkkat: | https://doi.org/10.5281/zenodo.20117997 |
| Fáddágilkorat: |
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Sisdoallologahallan:
- <p> </p> <p>The capstone of the Merkabit Research Series presents a candidate unified theory of physics built on a single algebraic forcing chain with zero free parameters.</p> <p>Starting from the requirement that a self-correcting computational unit exist on the Eisenstein lattice, the chain <strong>R → Z₃ → P₂₄ → E₆ → PSL(2,7)</strong> forces the derivation of fundamental constants — including the fine structure constant α⁻¹ = 137.036 (0.005 ppb vs CODATA 2018), the strong coupling constant α_s = 5/42 (0.02σ), the Weinberg angle sin²θ_W = 3/13 (0.19%), the Higgs vacuum expectation value, Newton's constant, the cosmological constant Λ = 2.876 × 10⁻¹²² (0.2%), the Yang-Mills mass gap Δ = 1/24, and the matter-antimatter baryon-to-photon ratio η_B = 5α⁴/|2T| = 5.91 × 10⁻¹⁰ matching Planck 2018 observation (6.09 ± 0.06) × 10⁻¹⁰ at 3% with zero free parameters — the <strong>Fifth Face of PSL(2,7)</strong>, extending Paper 10's four-faces unification.</p> <p>The architecture's five-gate ouroboros {R, T, S, F, P} is now derived <strong>mechanically from geometric closure</strong> in five steps: the matter triangle (2D face primitive, 3 gates), four triangles closing into a tetrahedron by 3-fold rotation, the counter-tetrahedron under rotation reversal, the dual-tetrahedron toroid where P emerges as the phase between counter-rotating spinors, and the cross-chiral tunnel between toroids where F emerges as the frequency-lock. The architecture is forced to exactly five gates by this closure; the R-locking test confirms it empirically (4-fold and 6-fold variants miss α⁻¹ by 0.15–0.27). The dual pentachoron is <strong>combinatorially over-determined</strong> at multiple counts — 10 tetrahedral cells (the V = 10 of α normalisation), 9 vertices with R-axis merged (the topology-independent 9-entry lookup table of Paper 31, with the (R, R) diagonal as the structurally zero fixed point), 5 single-pentachoron vertices, and 31 = 2⁴ + 2⁴ − 1 binary configurations — providing the architectural backbone for the Standard Model's matter sector.</p> <p>The matter sector B₃₁ exhibits three structurally complete <strong>closure modes</strong> — matter, antimatter, Riemann — that exhaust the obstruction types of the merkabit loop, with the master clock <strong>60 = lcm(h(E₆), h(E₈))</strong> and the 5-fold ouroboros as its 60 → 12 collapse operator. The matter-antimatter rate asymmetry δ_rate = 0.0417 measured in 6-qubit Cirq simulation equals the Yang-Mills mass gap 1/24 to four significant figures.</p> <p>The architecture extends to black hole thermodynamics: the classical singularity is replaced by a T₇₅-saturated core at r_p/r_s = 0.154, the holographic principle emerges as a counting theorem on the discrete Laplace equation, and α⁻¹ is derived a fourth independent way from black hole boundary counting alone.</p> <p>All five pre-registered hardware predictions from Appendix N were confirmed on IBM Eagle r3 and Heron r2 quantum processors within a single week (6–12 April 2026). Three further hardware observables are now pre-registered: Observable 22 (19-qubit Pentachoric Verification Protocol), Observable 25 (9-qubit closure trichotomy on IBM Eagle r3, Heron r2, and Google Willow), and Observable 26 (24-qubit chirality asymmetry on the 24-cell).</p> <p><strong>Executable companion:</strong> <code>github.com/SelinaAliens/genesis_sequence_merkabit</code> — the full genesis pipeline (binary substrate → Standard Model + gravity + black holes, 17 rungs, ~30-second runtime) plus <code>mechanical_genesis_verification.py</code>, the five-step derivation of the gate set itself from pure geometric closure (5/5 PASS, <0.1-second runtime). Every rung is a pass/fail test against a predicted invariant, paired with an explicit falsifier.</p>