Do entanglements need some superluminal hidden connection?

TL;DR

This paper proposes that the creation of entanglement correlations is explained by a 'Negative' component of the wave function, which acts non-locally without requiring superluminal hidden signals or carriers.

Contribution

It introduces the concept of the 'Negative' as a non-local element of the wave function responsible for entanglement correlations, challenging the need for superluminal hidden connections.

Findings

The 'Negative' is a part of the wave function removed to produce entanglement.

In du-particle experiments, the 'Negative' consists of wave-packets that influence both particles.

The 'Negative' effectively 'knows' the measurement responses, explaining correlations without superluminal signals.

Abstract

Local hidden variables theories didn't succeed to explain the correlations revealed by entanglements. It is obvious that the explanation of the correlations stands in non-local effects, but nobody has ever detected any carriers that travel with superluminal velocity s.t. they could candidate for some superluminal connection between distant particles, in order to adjust the results to the correlations. This text explains that the role of creating the correlations is played by what is called here the "Negative". This is the part that was removed from the wave function of the independent particles, in order to obtain the entanglement. As it is shown here, for du-particle experiments the Negative consists in du-particle wave-packets. They enter both regions where the particles are tested, s.t. the Negative "knows" the response given by one particle, and erases the possibilities of forbidden responses from the other particle.