Authors: Chu-Jun Gu
The author believes there are spacetime particles(STP) which can sense all matter particles ubiquitously. Matter particles will change their states collided by STP . The underlying property of mass is a statistical property emerging from random impact in spacetime. We propose a mass interaction principle (MIP) which states any particle with mass m will involve a random motion without friction, due to random impacts from spacetime. Each impact changes the amount nh (n is any integer) for an action of the particle. Starting from the concept of statistical mass, we propose the fundamental MIP. We conclude that inertial mass has to be a statistical property, which measures the diffusion ability of all matter particles in spacetime. We prove all the essential results of special relativity come from MIP. Speed of light in the vacuum need no longer any special treatment. Instead, speed of STP has more fundamentally physical meaning, which represents the upper limit of information propagational speed in physics. Moreover, we derive the uncertainty relation asserting a fundamental limit to the precision regarding mass and diffusion coefficient. Within this context, wave-particle duality is a novel property emerging from random impact by STP. Further more, an interpretation of Heisenberg’s uncertainty principle is suggested, with a stochastic origin of Feynman’s path integral formalism. It is shown that we can construct a physical picture distinct from Copenhagen interpretation, and reinvestigate the nature of spacetime and reveal the origin of quantum behaviours from a realistic point of view.
Comments: 56 Pages.
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