What question did this study set out to answer?

The aim is to develop a framework explaining quantum entanglement as a dynamic process influenced by time.

February 2, 2026Open Access

Unified Field Information Theory (UFIT): Temporal Dynamics of Pre-Resonance as a Mechanism for Quantum Correlation (v1.0)

Key Points

The aim is to develop a framework explaining quantum entanglement as a dynamic process influenced by time.
Introduces the Unified Field Information Theory framework.
Utilizes a second-order damped field equation to model interactions.
Establishes a characteristic time scale for photon correlation.
Presents a falsifiable prediction regarding Bell inequality violations.
Identifies a characteristic time scale of approximately 38 femtoseconds for visible spectrum photons.
Predicts that Bell inequality violations occur only after the established time scale.
Suggests that testable measurements can be conducted using attosecond-resolved techniques.

Abstract

This paper presents the foundational framework of Unified Field Information Theory (UFIT), a phenomenological model describing quantum entanglement as a time-dependent dynamical process rather than an instantaneous correlation. Central to the theory is the postulate of a finite settling time for the pre-resonance field (t). Using a second-order damped field equation (the Translator equation), the model predicts a specific characteristic time scale of 38 femtoseconds for photons in the visible spectrum. This version establishes the Z-plane framework, where correlations are viewed as a synchronization process between a metric-free information plane and physical spacetime. The work offers a falsifiable prediction: Bell inequality violations (S > 2) only emerge after this characteristic time scale, which can be tested via attosecond-resolved coincidence measurements.

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