What question did this study set out to answer?

The aim is to present a physical mechanism of quantum entanglement within the Physical Time Medium framework.

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January 18, 2026Open Access

Entanglement as Shared Configuration in the Physical Time Medium

Key Points

The aim is to present a physical mechanism of quantum entanglement within the Physical Time Medium framework.
Developed a theoretical framework for the Physical Time Medium (PTM).
Formulated quantum entanglement as a shared configuration in the PTM context.
Ensured compliance with quantum statistics and no-signaling principles.
Entanglement arises from a non-separable physical time-density field during interactions.
Maintained standard quantum statistics and Bell-inequality violations without new constants.
Unified quantum correlation with existing PTM formulations of dynamics and time asymmetry.

Abstract

This paper provides a physical mechanism for quantum entanglement within the Physical Time Medium (PTM) framework. Entanglement is shown to arise as a shared, non-separable configuration of the physical time-density field established during interaction and conserved under spatial separation. The formulation preserves standard quantum statistics, Bell-inequality violations, and relativistic no-signaling without introducing new constants or nonlocal influences. The result unifies quantum correlation with previously derived PTM formulations of quantum dynamics, measurement collapse, and macroscopic time asymmetry (GR/AVITY).

Entanglement as Shared Configuration in the Physical Time Medium

Key Points

Abstract

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