Here is a Hypothesis: LQG patch geometry predicts binary black hole merger octave depth at n = 5.314
So I tested it against 264 GWOSC events, zero free parameters.
Derived a compactness equation from LQG area spectrum and the Robertson uncertainty minimum: n(C) = 3.561 + 3.506 × C. Zero free parameters.
At Schwarzschild limit C = 0.5, predicts n = 5.314. Tested against 264 BBH events across GWTC-2.1, GWTC-3, and GWTC-4. Population mean: 5.319, 0.05σ off. Geometric floor n_flip = 3.561 unviolated in all 264. Makes 14 falsifiable predictions against O5.
(2026 fingers crossed)
Timestamped on
https://zenodo.org/records/20271290,
Pipelines & csv data on
GitHub https://github.com/groksgalaxynet/Seraphim-LQG
LIGO O5 is the real judge.
I Tested the pipelines against these
https://zenodo.org/records/6513631
https://zenodo.org/records/8177023
https://zenodo.org/records/16053484
Datasets from LIGO/VIRGO/Kagra
Combined total 60+ gb dataset.
I’m just an independent researcher &
Need verification on tests and/or feedback
Help me understand better if I’m missing something here.
Thanks