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Simulated Non-Local EPR Correlation: CHSH = 3

A statistical simulation is presented which reproduces the correlation obtained from EPR coincidence experiments without non-local connectivity. Defining spin under the quaternion group reveals hyper-helicity, a hitherto missed attribute of spin. Including this in the treatment, reveals two complementary properties: spin polarization and spin coherence. The former has a CHSH value of 2, and spin coherence has a CHSH = 1 giving CHSH = 3 for an EPR pair. The simulation here gives 2.995. We suggest that Nature has CHSH=3 being considerable more than predicted from quantum mechanics of $2\sqrt{2}$. There are no Local Hidden Variables. We suggest that quaternion spin is more fundamental than Dirac spin. A computer program which performs the simulation without non-local connectivity is described.

MDPI AG

Bryan Sanctuary

2023

Title: Simulated Non-Local EPR Correlation: CHSH = 3

Description:

A statistical simulation is presented which reproduces the correlation obtained from EPR coincidence experiments without non-local connectivity.

Defining spin under the quaternion group reveals hyper-helicity, a hitherto missed attribute of spin.

Including this in the treatment, reveals two complementary properties: spin polarization and spin coherence.

The former has a CHSH value of 2, and spin coherence has a CHSH = 1 giving CHSH = 3 for an EPR pair.

The simulation here gives 2.

995.

We suggest that Nature has CHSH=3 being considerable more than predicted from quantum mechanics of $2\sqrt{2}$.

There are no Local Hidden Variables.

We suggest that quaternion spin is more fundamental than Dirac spin.

A computer program which performs the simulation without non-local connectivity is described.

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A statistical simulation is presented which reproduces the correlation obtained from EPR coincidence experiments without non-local connectivity. Defining spin under the quaternion ...

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Simulated Non-Local EPR Correlation: CHSH = 3

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