Abstract
Theoretical and experimental evidences of a causal relation of the phase of the wave function and physical reality are presented. The Copenhagen interpretation of quantum mechanics, which gives physical meaning to the amplitude of the wave function only, cannot be considered complete on that ground. A new dynamics-statistical interpretation of quantum mechanics is proposed.
Highlights
The quantum mechanics appears to be the most successful theory of physical reality at a microscopic level
In this work we show that the relation of the wave function with the physical reality is not restricted to the amplitude only but the material phase (MP) becomes causally involved in the physical phenomena [4]
A new dynamics-statistical interpretation of quantum mechanics is introduced on that ground
Summary
The quantum mechanics appears to be the most successful theory of physical reality at a microscopic level It is a subject of intensive debates mainly in the field of interpretation. The physical state in quantum mechanics is described not by a definite number of dynamical variables, coordinates, linear momenta, etc., as in the classical mechanics, but by an abstract quantity—the wave function. It describes the state of localized physical objects, i.e., particle or system of particles, the wave function (quantum state) is distributed in space as for the continuous objects, i.e., waves. (2016) Causality of Phase of Wave Function or Can Copenhagen Interpretation of Quantum Mechanics Be Considered Complete? A new dynamics-statistical interpretation of quantum mechanics is introduced on that ground
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