End of Several Quantum Mysteries

TL;DR

This paper introduces quantum-compatible local variables that explain entanglement correlations without violating Einstein locality, resolving long-standing mysteries about spooky action at a distance and collapse phenomena.

Contribution

It presents a novel local variable model that accounts for quantum correlations while preserving strict Einstein locality, challenging traditional interpretations.

Findings

Local variables determine entanglement correlations

Resolves the mystery of spooky action at a distance

Provides new insights into quantum teleportation

Abstract

I report on the discovery of quantum compatible local variables that are shared between subsystems of quantum-conventionally entangled physical systems such that they determine the correlations of spatially separated systems while preserving strict Einstein locality. This puts an end to the mystery of spooky action at a distance and alleged collapse at a distance, answering vital questions, first raised in the EPR paper, on the behaviour of spatially separated entangled systems. The solution helps to understand quantitative measures of entanglement in a transparent way. It also provides new insight, consistent with strict locality, of the physics of quantum teleportation and related phenomena.