Milne Quantum-Universe Redshift-Luminosity Correlation
Geoffrey Chew
TL;DR
This paper discusses how Milne's classical cosmology predicts a specific relation between redshift and luminosity distance, which aligns with supernova data, supporting the idea of a non-empty universe from quantum-theoretic perspectives.
Contribution
It demonstrates that Milne's cosmological model accurately predicts supernova observations, highlighting its relevance in quantum-theoretic cosmology.
Findings
Supernova data support Milne's redshift-luminosity relation.
Milne's universe is consistent with a non-empty cosmological model.
Quantum considerations reinforce Milne's classical predictions.
Abstract
Milne`s classical homogeneous-universe cosmology predicts a product of Hubble constant with luminosity distance that equals z + z2/2, where z is redshift. Supernova-data are consistent with this relation, supporting quantum-theoretic considerations that reveal Milne`s universe as "non-empty".
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Taxonomy
TopicsCosmology and Gravitation Theories · Astronomy and Astrophysical Research · Relativity and Gravitational Theory