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Developments of Space-Time, Complete Special Relativity, and Superluminal Entangled Communication
Yi-Fang Chang
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DOI:10.17265/2159-5313/2022.07.001
Yunnan University, Kunming, China
Time and space are two very important basic concepts in philosophy and nature. In special relativity we proved that there are necessarily 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. Based on quantum entanglement as new fifth interaction, we research a simple superluminal entangled communication, whose key is to establish two mutually entangled particles or devices Alice (A) and Bob (B). We observe and control the information of A position, and then can know the corresponding results of the other B. This is not to send directly information each other. It may be superluminal, and should agree and test GLT. Moreover, we research some new possible developments of time and space, such as the fractal dimension extended to the complex dimension, the higher dimensional time, and the arrow of time. A generalized Noether’s theorem is proposed. In quantum theory, we search the higher dimensional complex space in supersymmetry, and the space-time operators.
philosophy of science, space, time, special relativity, superluminal, quantum entanglement, communication
Yi-Fang Chang. (2022). Developments of Space-Time, Complete Special Relativity, and Superluminal Entangled Communication. Philosophy Study, July 2022, Vol. 12, No. 7, 365-371.