Abstract
It is shown how quantum mechanics emerges from the stochastic dynamics of force carriers. It is demonstrated that the Moyal equation corresponds to dynamic correlations between the real particle momentum and the virtual particle position, which are not present in classical mechanics. This new concept throws light on the physical meaning of quantum theory, showing that the Planck constant square is a second-second position-momentum cross-cumulant.
Highlights
It is demonstrated how quantum mechanics emerges from the stochastic dynamics of force-carriers
The Newtonian interactions in classical mechanics occur via exchange of virtual particles [1]
It is expected that the virtual particle dynamics is stochastic, which will obviously result in random Newtonian potentials
Summary
It is demonstrated how quantum mechanics emerges from the stochastic dynamics of force-carriers. The stochastic motion of the virtual particles can cause the quantum dynamics [2]. In the present paper it is shown, how quantum mechanics emerges from the stochastic dynamics of force-carriers.
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