Invariance of Spooky Action at a Distance in Quantum Entanglement under Lorentz Transformation

TL;DR

This paper demonstrates that the instantaneous collapse of entangled quantum states is invariant under Lorentz transformations and compatible with relativity, suggesting a fundamental role of entanglement in all forces of nature.

Contribution

It provides a theoretical framework showing the invariance of wave function collapse under Lorentz transformations and explores maximum collapse speeds in many-body entangled systems.

Findings

Collapse invariance under Lorentz transformations

Detection of maximum collapse speed in entangled systems

Proposal that all forces act via entanglement

Abstract

We study the mechanism by which the particle-antiparticle entangled state collapses instantaneously at a distance. By making two key assumptions, we are able to show not only that instantaneous collapse of a wave function at a distance is possible but also that it is an invariant quantity under Lorentz transformation and compatible with relativity. In addition, we will be able to detect in which situation a many-body entangled system exhibits the maximum collapse speed among its entangled particles. Finally we suggest that every force in nature acts via entanglement.