Open AccessCan Quantum Mechanics and Relativity be considered per se complete? - A discussion on Quantum Mechanics and Relativity in Full Space-time Domain
Author(s) -
Yuan-Jie Li,
Lihong Zhang,
Peng Dong
Publication year - 2018
Publication title -
journal of advances in physics
Language(s) - English
Resource type - Journals
ISSN - 2347-3487
DOI - 10.24297/jap.v14i1.6981
Subject(s) - theory of relativity , physics , relativistic mechanics , problem of time , classical mechanics , relational quantum mechanics , theoretical physics , quantum mechanics , quantum gravity , quantum , quantum dynamics , quantum process
This paper points out the incompleteness of the traditional quantum mechanics and relativity, which is embodied in space-time domains of definition, not in physical quantities for description. The real time and space are not continuous. The phenomena called “ghost-like long-range action†by Einstein in fact occur in the time discontinuity points, that is, Time Quantum Worm Holes put forward by Hawking. This paper also gives an essential difference between the macroscopic random motion and the microscopic random motion, which is critical for understanding wave-particle duality.