This Zenodo entry contains a comprehensive technical note that unifies three independent pillars of the Universal Applicable Time (UAT) and Unified Principle of Causality (UPC) frameworks into a single, self‑consistent explanation. The note demonstrates: Vacuum contamination in ΛCDM – A mathematical proof that the standard cosmological model overestimates the vacuum coupling constant α by a factor of 7957. 5×, leading to a 901. 6 % discrepancy. This contamination is resolved by the UAT/UCP causal regulation (LRCP), which forces the zero‑point energy density to converge to the Planck limit (ρZPE = ρPlanck). Causal regulation of ZPE and the Casimir effect – The same causal tensor that resolves the Hubble tension also renders the zero‑point energy finite and reproduces the measured Casimir force, providing a physical justification for vacuum coherence. Empirical validation with LIGO O1–O3 – A stress‑tested analysis pipeline (172–260 Hz window, power‑line notches) detects a directional scalar attractor in 78 GWTC events, triangulates it to RA 124. 78°, Dec +7. 85° (Cancer), and achieves a time‑shifted false‑positive rate of 2. 6 % with 0. 0 % hits in pure Gaussian noise. Why LIGO O4/O5 cannot see the signal – A numerical model shows that frequency‑dependent squeezing (FDS) displaces the peak‑normalised RMS of the radial coherence beyond the detection threshold. Projections for O5 indicate a thermodynamic overdrive ratio κ/k ≈ 25. 70, corresponding to a critical saturation that renders the signal undetectable by current interferometers. The note concludes that the same flawed vacuum description that underlies ΛCDM also calibrates the noise‑suppression systems of advanced LIGO, making them inherently blind to the UAT attractor. A dedicated omnidirectional detector (Puan Station) is proposed as the necessary next step. Supplementary resources cited in the note: Complete validation suite (DOI: 10. 5281/zenodo. 19932821) Final optimised analysis suite (DOI: 10. 5281/zenodo. 19955219) Numerical model of FDS attenuation (DOI: 10. 5281/zenodo. 19958365) A priori O5 prediction (DOI: 10. 5281/zenodo. 19959628) ZPE and Casimir resolution (DOI: 10. 5281/zenodo. 17460546) Foundational UAT/UPC works (DOIs: 10. 5281/zenodo. 17729221, 10. 5281/zenodo. 18210808, 10. 5281/zenodo. 17718670)
Miguel Angel Percudani (Fri,) studied this question.
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