Open AccessSimple Superluminal Entangled Communication Scheme and Its Base in Special Relativity
Author(s) -
Yi-Fang Chang
Publication year - 2021
Publication title -
asian journal of research and reviews in physics
Language(s) - English
Resource type - Journals
ISSN - 2582-5992
DOI - 10.9734/ajr2p/2021/v5i330166
Subject(s) - superluminal motion , physics , lorentz transformation , quantum entanglement , simple (philosophy) , theory of relativity , special relativity , position (finance) , theoretical physics , quantum mechanics , topology (electrical circuits) , computer science , classical mechanics , mathematics , quantum , combinatorics , philosophy , epistemology , finance , economics
Based on quantum entanglement and corresponding quantum communication, we research a simple superluminal entangled communication scheme, whose key is to establish two mutually entangled particles or devices A and B. We observe and control the information of A position, then can know the corresponding results of the other B. This is not to send directly information each other. It may be superluminal. In special relativity we provided that there are necessary two symmetrical topological structures separated by the light-cone, which includes the generalized Lorentz transformation (GLT) for the spacelike interval, in which phase velocity is superluminal. It is base of this scheme, and may test GLT.