Technical Limitations in the Observational Validation of the UAT/UCP Framework: LIGO Data Integrity, Instrument Design, and Boltzmann Code Implementation
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Description
This technical note documents three significant obstacles encountered during the validation of the Unified Applicable Time (UAT) and Unified Causal Principle (UCP) frameworks. First, local downloads of LIGO strain data were found to suffer from file corruption, leading to inconsistent results across different computing environments. Second, the LIGO interferometer design, while optimal for standard gravitational-wave astronomy, is not ideally suited for detecting the subtle phase-coherence signatures predicted by UAT/UCP. Third, the UAT/UCP frameworks are independent descriptive metrics rather than extensions of ΛCDM, making their implementation in standard Boltzmann solvers (CLASS, CAMB) impossible without fundamental modifications to the source code. This note serves as a transparent record of these challenges and outlines the conditions necessary for future validation efforts. The note is a companion to the main observational results paper (Simultaneous Resolution of the Hubble, S8, and Cosmic Age Tensions in the UAT Framework).
Related DOIs:
UAT Framework: 10.5281/zenodo.17729221
UPC Framework: 10.5281/zenodo.17718670
UAT Age/JWST paper: 10.5281/zenodo.18091437
UAT Unified Tensions paper: [pending DOI]
Author: Miguel Ángel Percudani (Puan, Buenos Aires, Argentina)
Campos/Radiofrecuencia
License: Creative Commons Attribution 4.0 International (CC BY 4.0)
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