A New Paradigm for Quantum Nonlocality

TL;DR

This paper introduces a novel approach to quantum nonlocality that removes measurement choices, integrating quantum computation to explore entanglement's dual aspects, challenging traditional Bell's theorem assumptions.

Contribution

It proposes a new paradigm linking quantum computation with nonlocality, departing from Bell's measurement choice framework, and explores fixed measurement scenarios.

Findings

Establishes a new paradigm for quantum nonlocality without measurement choices.

Connects quantum computation directly with nonlocality phenomena.

First to integrate quantum computation into nonlocality studies.

Abstract

Bell's theorem basically states that local hidden variable theory cannot predict the correlations produced by quantum mechanics. It is based on the assumption that Alice and Bob can choose measurements from a measurement set containing multiple elements. We establish a new paradigm that departs from Bell's paradigm by assuming that there are no choices for Alice and Bob and that the measurements Alice and Bob will make are fixed from the start. We include a process of quantum computation in our model. To the best of our knowledge, we are the first to connect quantum computation and nonlocality, the two faces of entanglement.