English

Testing an Einstein's intuitive objection to quantum mechanics

General Physics 2021-12-10 v1

Abstract

We propose an experiment that allows one to test the Einstein's intuitive objection to Bohr's quantum mechanics (QM), which was that if QM is correct, then there should be a nonlocality related to the collapse of a single-particle macroscopic wavefunction, which by no means is compatible with special relativity. The idea of the experiment is related to the so-called integer quantum Hall (IQH) systems known to have macroscopic quantum orbits often called extended states. The experiment appeared realizable in a modified IQH system and we have found that a single-particle nonlocality does exist precisely as it follows from QM. This fact makes one come back to the Bell-Popper idea to revive the Lorentz-Poincare "dynamic" version of relativity together with the classical concept of space and time. But now, if to add the single-particle nonlocality to the Bohm-Hiley model of undivided universe, one can solve the most formidable problem - to find a preferred reference frame without involving the vague notion "aether". Moreover, now one can adopt a deeper-than-relativistic concept of what we call "reality", which opens the door to a realistic interpretation of QM and, after all, to the awareness of the worldview of this extremely successful theory.

Keywords

Cite

@article{arxiv.2112.04901,
  title  = {Testing an Einstein's intuitive objection to quantum mechanics},
  author = {Sergey A. Emelyanov},
  journal= {arXiv preprint arXiv:2112.04901},
  year   = {2021}
}
R2 v1 2026-06-24T08:10:42.150Z