TDG/TQ Pre-Data Predictions for Supercooled Ion-Doped Water Clusters

This record provides pre-data predictions from the Time-Dilation Geometry / Timeless
Quanta (TDG/TQ) framework for observables expected in supercooled, ion-doped water
cluster experiments at the November 2025 ACS Physical Chemistry Division sessions. All
scaling relations originate solely from the proton curvature lock-in developed in Timeless
Quanta [1]. No experimental molecular parameters, force-field coefficients, or fitted po-
tentials are used. A three-shell TDG/TQ curvature potential yields an H2O dimer O–O
separation of 2.910 AA (exp: 2.80 AA; deviation 3.9%). Predictions for RDF contrac-
tion, THz-band coherence, and dopant-induced Mpemba acceleration follow directly from
the same geometry. Full Python code is provided for transparency and reproducibility.

Version Correction 1.1: Ther previous upload mistakenly included a develeopmental code snippet. The correct TDG/TQ script is now provided. The recomputed munimum shifts slightly from the 2.910 AA but remains conssitent with the reported ~4% deviation. No scientific conclusions are affected.