| viXra.org > Quantum Physics > viXra:2507.0147 |
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| viXra.org > Quantum Physics > viXra:2507.0147 |
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Quantum Physics |
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Authors: Jacob Woods
This paper presents a computational framework for modeling quantum and classical correlations in a cosmological context, integrating quantum information theory with cosmological parameters. Utilizing Qiskit, a quantum computing library, we simulate a multi-qubit Greenberger-Horne-Zeilinger (GHZ) state to compute quantum correlation parameters and compare them with their classical counterparts. The model incorporates cosmological effects, such as redshift and dark matter density, to explore potential quantum-classical analogies in an expanding universe. We derive key formulas for quantum and classical correlations, cosmological time scales, and density matrix scaling, and analyze their interrelations. The results demonstrate how quantum entanglement measures can be contextualized within cosmologicalframeworks, offering insights into the interplay between quantum mechanics and cosmology.
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[v1] 2025-07-20 20:40:13
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