Once again about Einsteins realism: the matter waves and Bells inequalities from the point of view of the special theory of relativity

TL;DR

This paper investigates whether the peculiarities of de Broglie matter waves and Bell inequality experiments can be explained classically through special relativity, advocating for a realistic interpretation of quantum phenomena.

Contribution

It offers a novel classical interpretation of matter waves and Bell test results based on special relativity, challenging conventional quantum nonlocality views.

Findings

De Broglie matter waves can be interpreted through special relativity.

Bell inequality violations are consistent with a relativistic realistic framework.

Supports Einstein's realistic worldview in quantum phenomena.

Abstract

We explore the possibility to give a classical explanation to the specifics and physical sense of de Broglie matter waves when studying the microparticle as an object of non zero size, from the point of view of the special theory of relativity. We show that the particularities of de Broglie matter waves and the results of the experimental verifications of Bell inequalities for the pairs of entangled photons are naturally interpreted as the results of implementation of the conclusions of the special theory of relativity to the microparticles. We conclude that it is appropriate to go back to the search of the new means of realistic description of the nature proposed by Einstein and his realistic worldview that states that the world studied by the science is real and every part of it at any moment of time has objective physical characteristics.