This second iteration of the Unified Field Information Theory (UFIT) introduces a significant expansion of the framework: the energy-dependent scaling of the synchronization latency (). While the initial version postulated a fixed time scale, v2. 0 derives a 1/E scaling law, leading to specific, wavelength-dependent predictions for entanglement buildup (e. g. , approx. 57 fs for deep UV and 304 fs for infrared). In addition to the scaling laws, this version addresses initial considerations for Lorentz covariance within the Z-plane framework, clarifies the ontological status of the metric-free information plane, and resolves numerical inconsistencies from the first draft. These refinements provide a concrete roadmap for multi-wavelength attosecond spectroscopy to test the predicted "Latency Wall" of quantum correlations.
Daniel Süß (Thu,) studied this question.
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