Caducity of idea about wave function collapse as well new views on Schrodinger's cat and quantum measurements

TL;DR

This paper challenges the traditional view of quantum measurement as a single deterministic event, emphasizing the importance of statistical sampling and offering new perspectives on Schrödinger's cat and quantum measurement interpretations.

Contribution

It refutes the idea of single deterministic sampling in quantum measurements and introduces a statistical approach to better understand quantum phenomena.

Findings

Quantum observables are inherently random variables.

Single sampling view of measurement is outdated.

New insights into Schrödinger's cat and measurement processes.

Abstract

Investigated idea was actuated by the old opinion that a measurement of a quantum observable should be regarded a as a single deterministic sampling. But, according to the last decades studies, such observables are veritable random variables and their measurements must imply significant sets of statistical samplings. So one finds the indubitable caducity of the approached idea. Contiguously the respective finding allows to put into a new light the controversial questions like the Schrodinger's cat thought experiment or description of quantum measurements.