Quantum Physics -- A Theory of Dynamics for "Space" on Space

Abstract

Till now, the foundation of quantum physics is still mysterious. To explore the mysteries in the foundation of quantum physics, people always take it for granted that quantum processes must be some types of fields/objects on a rigid space. In this paper, we give a new idea that the space is no more rigid and the matter is the certain changing of "space" itself rather than extra things on it. Based on this starting point, we develop a new framework based on quantum and classical mechanics. Now, physical laws emerge from different changings of regular changings on spacetime. Then, both quantum mechanics and classical mechanics become phenomenological theories and are interpreted by using the concepts of the microscopic properties of a single physical framework. The expanding/contracting dynamics of "space" leads to quantum physics. In addition, when we consider a physical variant with 2-th order variability, quantum fields with gauge structure emerge. The 2-th order variability is reduced into U(1) local gauge symmetry and SU(N) non-Abelian gauge symmetry. The corresponding theory becomes QED and QCD. The belief of "symmetry induce interaction" is now updates to "Higher order variability induce interaction". After introducing chirality, a physical variant with 2-th order variability becomes the true physical reality of our universe. The low energy effective theory is just the Standard model -- an SU(3)*SU(2)*U(1) gauge theory. An important progress is about hidden topological structure for elementary particles of different generations -- chiral para-statistics. In particular, to obtain the entire mass spectra, we only need to use only one free parameter. This progress on the foundation of quantum physics will have a far-reaching impact on modern physics in the future.

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