Open AccessQuantum Entanglement Results from Quantum State Transition at Fast-Than-Light Speed with Matter Wave’s Phase Velocity
Author(s) -
Xinye Wang
Publication year - 2021
Publication title -
physical science and biophysics journal
Language(s) - English
Resource type - Journals
ISSN - 2641-9165
DOI - 10.23880/psbj-16000179
Subject(s) - physics , quantum entanglement , quantum mechanics , quantum phase transition , quantum discord , w state , quantum process , classical mechanics , quantum , quantum dynamics
The quantum entanglement, that violates the local realism and other classical physics theories, leads to various counterintuitive phenomena, is a primary feature of quantum mechanics and probably results from the quantum state’s conservation and the quantum state’s transition with the matter wave’s phase velocity at the fast-than-light speed. The quantum state transition of entangled particles proceeds with the phase velocity, while the observer measures the process with the electromagnetic or the light speed. This speed difference makes the causality law no longer fully valid everywhere except in certain areas.