Quantum Entanglement as Shared Coherence A Mechanistic Interpretation

This paper presents an intuitive, mechanistic explanation of quantum entanglement using standard physics language while incorporating deeper insights aligned with the MID/QC framework. Entanglement is typically described as a correlation between two particles that persists across distance, but standard quantum mechanics does not provide a physical mechanism for how this correlation is maintained. In this interpretation, entanglement arises when two quantum systems interact closely enough for the underlying medium to form a single coherent oscillation pattern spanning both. After separation, each system remains a boundary expression of this shared structure. Measurement does not transmit information; it reveals the state of the pre existing coherence pattern. This approach preserves all quantum predictions while offering a clear physical mechanism for entanglement, correlation, and decoherence.