Einstein-Podolsky-Rosen correlations in a hybrid system

Pawe{\l} Caban; Jakub Rembieli\'nski; Piotr Witas; Marta W{\l}odarczyk

arXiv:1012.2855·quant-ph·May 20, 2015

Einstein-Podolsky-Rosen correlations in a hybrid system

Pawe{\l} Caban, Jakub Rembieli\'nski, Piotr Witas, Marta W{\l}odarczyk

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TL;DR

This paper calculates the relativistic correlation function for a photon-fermion system, revealing that particle velocities can significantly affect quantum correlations and CHSH inequality violations.

Contribution

It introduces a calculation of relativistic correlations in a photon-fermion hybrid system, highlighting velocity-dependent effects on quantum entanglement.

Findings

01

Correlation function depends on particle momenta.

02

Local extrema occur at fermion velocities around 0.5 c.

03

Velocity influences CHSH inequality violation.

Abstract

We calculate the relativistic correlation function for a hybrid system of a photon and a Dirac-particle. Such a system can be produced in decay of another spin-1/2 fermion. We show, that the relativistic correlation function, which depends on particle momenta, may have local extrema for fermion velocity of order 0.5 c. This influences the degree of violation of CHSH inequality.

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