Theoretical Insight into the Connection between the Gravity and the Generalized Quantum Entanglements

by Open Science Repository Physics
(September 2015)

Abstract

Much of the known dynamic of the particles is governed by local interactions such as the electromagnetism but the quantum mechanics also adds the possibility of the dynamics be governed by nonlocal interactions in case of mutually entangled particles. Here, by using the formalism of quantum mechanics, it is shown quantitatively that in an entangled system of two particles, where a negligible or null interaction happens each other as well as the outside world via local known interactions, the momentum of a particle varies considering that the other particle of the pair achieves an infinite potential well. This article theorizes qualitatively a much larger system, so that all existing particles are in condition of quantum entanglement and consequently this generality explains possibly the main properties of the gravity.

Keywords: quantum entanglement, nonlocal potential, generality, gravity.

Full Text

Theoretical Insight into the Connection between the Gravity and the Generalized Quantum Entanglements