Volume 8, Issue 1, pages 42-51
We report statistically significant out-of-sample predictability in the relative phase evolution of spatially separated international atomic clocks. Using strictly walk-forward forecasting in a pre-registered narrow frequency band (8–12 days), we demonstrate that cross-laboratory phase differences exhibit coherence structure inconsistent with stochastic noise and hardened surrogate null models. We report statistically significant out-of-sample forecast skill in the 8–12 day band for several clock pairs, exceeding 99.5\% of phase-randomized surrogate realizations, while control bands show no comparable predictability. We interpret these results as empirical evidence for an emergent geometric coherence field underlying physical evolution, in which causal order arises as a secondary, resource-limited phenomenon rather than a fundamental axiom. Within this framework, dark matter corresponds to unaligned geometric degrees of freedom that contribute gravitationally while remaining inaccessible to local operators. All code, processed data, and analysis scripts are released to enable full independent replication.
Please comment with your real name using good manners.