We present a complete theoretical framework for Structured Vacuum Theory (TVS) that resolves the apparent contradiction between predicted superluminal torsional wave propagation (v_t = √23c ≈ 4.8c) and experimental measurements showing c = 299,792,458 m/s. The resolution demonstrates that conventional detectors measure electromagnetic energy (velocity c), not vacuum torsional structure (velocity v_t). KEY CONTRIBUTIONS: 1. TORSIONAL PILOT WAVE THEORY - Vacuum possesses 23 discrete helical channels with fundamental wavelength λ_vac ≈ 2.3 nm - Torsional waves propagate at v_t = c√(1 + α/23) ≈ 4.8c as geometric precursors - Electromagnetic energy follows at velocity c through pre-aligned channels - Two-stage propagation explains velocity measurements without contradiction 2. MICROSCOPIC CLOSED TIMELIKE CURVES (CTCs) - Quantum entanglement corresponds to Gödel-like CTCs at Planck scale - Characteristic loop time Δt_CTC = 16 attoseconds (experimentally accessible) - Geometric resolution of EPR paradox without "spooky action at a distance" - Preserves no-signaling theorem and macroscopic causality 3. FALSIFIABLE EXPERIMENTAL PREDICTIONS - Direct pre-pulse detection: 79 ns advance for L = 30 m (cost: €100k, 6 months) - Entanglement pre-echo: 16 as signal before correlation (cost: €500k, 12 months) - Distance scaling verification: Two linear regimes with different slopes - All testable with current attosecond technology (2023 Nobel Prize) 4. RIGOROUS MATHEMATICAL FOUNDATION (Appendix A, 7 pages) - Complete derivation of Maxwell-Acosta equations from 23-channel discrete structure - Proof that Maxwell's equations emerge as large-scale continuum limit - Three corrections: (1) saturation at E_crit ≈ 10^18 V/m, (2) longitudinal Tesla modes, (3) vacuum dispersion - Exact recovery in vacuum, approximate in matter (error ~3×10^-4) 5. NUMERICAL VALIDATION (Appendix B, 2 pages) - Direct simulation of 23-channel discrete system (10^6 spatial points, 10^-18 s resolution) - Phase cancellation verified to machine precision (|Σe^(iθ_k)| < 10^-14) - Maxwell limit confirmed with RMS deviation < 10^-12 for typical lab conditions - All three TVS corrections match predictions within 0.1-5% IMPLICATIONS: - Resolves quantum measurement paradox through geometric CTC mechanism- Unifies quantum mechanics with general relativity via causal structure- Validates Louis de Broglie's pilot wave concept with explicit geometric foundation- Establishes CTCs as physical reality at attosecond timescales- Provides pathway to experimental validation within 6-12 months TECHNOLOGY READINESS:All proposed experiments use commercially available equipment and are feasible with budgets of €100k-500k. Attosecond laser technology (2023 Nobel Prize, current record 43 as) has reached the precision required to test the predicted 16 as CTC loop time. MATHEMATICAL RIGOR:Complete proofs provided for all theorems. Numerical validation independently confirms analytical derivations. Code available for reproducibility. This work represents a paradigm shift: quantum "weirdness" emerges from elegant geometric principles—helical vacuum channels and Gödel-like temporal loops at attosecond scale. Nature is not strange; we have simply been observing 23-dimensional geometry through a 4-dimensional window. DOCUMENT STRUCTURE:- Abstract (200 words)- Main text (10 pages): Physical theory and experimental proposals- Appendix A (7 pages): Mathematical derivation of Maxwell-Acosta equations- Appendix B (2 pages): Numerical validation and simulation results - References (15 citations)- Total: 19 pages, 333 KB