We present a Bayesian statistical analysis to evaluate the Nexus Paradigm (NP) of quantum gravity, as proposed by Marongwe (2023), using horizon-scale observations of supermassive black holes (SMBHs) Sagittarius A* (Sgr A*) and M87* from the Event Horizon Telescope (EHT). The NP predicts angular diameters for the dark depression, emission ring, and base diameter, which we compare to EHT measurements. Employing Gaussian likelihoods and priors informed by mass-to-distance ratio uncertainties, we compute the posterior distribution for the angular scale parameter θg, achieving a combined χ²≈0. 0062 (four degrees of freedom) corresponding to a 4. 37σ (99. 9972%) confidence level. Individual features show deviations 0. 1σ supporting the NP’s claim of 99th percentile agreement. Compared to General Relativity (GR), which predicts a shadow diameter inconsistent with the observed dark depression (χ²≈168, ~12. 97σ) the NP is favoured with a Bayes factor of ~10³6. These results validate the NP’s predictions and highlight its potential as a quantum gravity framework, though refined uncertainties and broader model comparisons are recommended.
Marongwe et al. (Fri,) studied this question.