Author(s)

Marat Guryev

Shipilovskaya Street, Moscow, Russia.

EPR raised fundamental problems of non-locality (NL) in the case of entangled states (ES) 82 years ago. These problems were not solved until now. EPR and their followers used and would continue to use calculation methods that were available at that time. However, we can easily explain this observable NL as a trivial result of conservation laws (CL) within modern quantum mechanics (MQM). But application of CL requires materialistic descriptions of reality in a micro world in contrast to so-called quantum measurement theory (QMT), which was created mainly in the times of EPR and is widely accepted until now. We have to use a materialistic description, just as many physicists who actually work with high precision do by default. In this article, practical examples are given for real, precise measurements of wave functions of molecules and crystals, which, of course, were not known to EPR and were not noticed by their followers. We should acknowledge that QMT is merely an unneeded complication of simple relations of MQM. NL is the seeming result of these complications.

Non-Locality, Entangled States, Quantum Measurement Theory, EPR, Electron Diffraction, Neutron Diffraction, y - Ray Diffraction, Measurement of Wave Function

Guryev, M. (2017) The “Non-Locality” of Entangled States Is Seeming Phenomenon. Journal of Applied Mathematics and Physics, 5, 1791-1796. doi: 10.4236/jamp.2017.59151.