Bell violation in primordial cosmology

TL;DR

This paper explores the potential for observing Bell inequality violations in primordial cosmology by developing a model-independent framework, analyzing particle creation, and proposing measurement techniques within a string theory context.

Contribution

It introduces a novel, model-independent theoretical framework for Bell violations in cosmology, including particle creation, correlation functions, and experimental prospects.

Findings

Derived bounds on heavy particle mass parameters.

Computed correlation functions for scalar fluctuations.

Discussed measurement techniques for isospin breaking interactions.

Abstract

In this paper, we have worked on the possibility of setting up an Bell's inequality violating experiment in the context of primordial cosmology following the fundamental principles of quantum mechanics. To set up this proposal we have introduced a model independent theoretical framework using which we have studied the creation of new massive particles for the scalar fluctuations in the presence of additional time dependent mass parameter. Next we explicitly computed the one point and two point correlation functions from this setup. Then we comment on the measurement techniques of isospin breaking interactions of newly introduced massive particles and its further prospects. After that, we give an example of string theory originated axion monodromy model in this context. Finally, we provide a bound on the heavy particle mass parameter for any arbitrary spin field.