Goldstone states as non-local hidden variables

TL;DR

This paper explores the role of Goldstone states in spinor fields, proposing a model where these states encode frame information, enabling non-local correlations in entangled spins independent of gravitational effects.

Contribution

It introduces a novel approach to spinor fields by isolating Goldstone states, demonstrating their potential to explain non-local entanglement phenomena without gravitational influence.

Findings

Goldstone states can carry frame information unrelated to gravity.

A model of entangled spins with simultaneous collapse of correlations is proposed.

Analogies with double-slit experiments illustrate non-local features.

Abstract

We consider the theory of spinor fields in polar form where the spinorial true degrees of freedom are isolated from their Goldstone states, and we show that these carry information about the frames which is not related to gravitation so that their propagation is not restricted to be either causal or local: we use them to build a model of entangled spins where a singlet possesses a uniform rotation that can be made to collapse for both states simultaneously regardless their spatial distance. Models of entangled polarizations with similar properties are also sketched. An analogy with the double-slit experiment is also presented. General comments on features of Goldstone states are given.