The fundamental obscurity in quantum mechanics. Could the problem be considered universal?

TL;DR

This paper argues that quantum phenomena cannot be universally described and that the orthodox interpretation of quantum mechanics conflicts with relativity, highlighting fundamental obscurities in understanding quantum reality.

Contribution

It challenges the universality of quantum mechanics and advocates for a reinterpretation of the wave function, emphasizing the fundamental differences in obscurity at macroscopic versus atomic levels.

Findings

Quantum phenomena cannot be described universally.

Schrödinger's interpretation is more valid for many phenomena.

Fundamental obscurity differs between macroscopic and atomic quantum phenomena.

Abstract

The contemporary controversy about the fundamental obscurity in quantum mechanics keeps on the old one about the aim of science, which was between the founders of the quantum theory. The orthodox quantum mechanics could be created only at the cost of renunciation of reality as the aim of natural science. The description only of phenomena, i.e. results of observation, should not be universal if no one believes that these phenomena are manifestation of a unique reality. Such belief concerning quantum mechanics is quite unacceptable because of irremediably conflict with special relativity. Nevertheless the quantum mechanics was developed and apprehended by most physicists as a universal theory of a quantum world. This fundamental discrepancy between the essence of the orthodox quantum mechanics and its history of development and studying has resulted both to an illusion about the aim of its description among most physicists and to the consideration of its fundamental obscurity as a universal problem among experts in quantum foundation. The aim of this paper is to show that quantum phenomena can not be described universally. It is indicated that rather the Schrodinger's than Born's interpretation of the wave function is valid for description of many quantum phenomena. The fundamental obscurity with which we are faced at the description, for example, macroscopic quantum phenomena differs fundamentally from the one with which the founders of the quantum theory were faced on atomic level.