The Spatiotemporal Interpretation of Wave ‎Function May ‎Solve the Mystery of Quantum ‎Entanglement

Abstract

In this paper, the wave function is interpreted as space-time: under any representation, the real part of ‎the wave function ‎represents space and the imaginary part represents time. A wave function represents ‎the quantum entanglement (correlation) ‎between time and space. The unitary evolution process is the ‎mutual transformation of space-time. The imaginary time ‎indicates that it can entangle with space in a ‎nonlocalized way and dominate the integrity (unification) of a quantum, which ‎is the essence of ‎quantum entanglement.‎