Quasars in the Framework of Quarkbase Cosmology reinterprets quasars within the Quarkbase Cosmology framework as large-scale resonators of the etheric plasma field Ψ, rather than mere products of gravitational accretion. In this model, the extreme luminosity of quasars arises from quark–gluon reconfiguration occurring in the inner regions of active galactic nuclei, where matter approaching a supermassive black hole reaches densities close to the quark–gluon critical threshold. The theory introduces a quarkbase correction factor ΦQ that amplifies the standard accretion luminosity when the local excitation density ρq approaches the critical density ρcrit, providing a natural explanation for the exceptional brightness of quasars without invoking exotic efficiencies or fine-tuned mechanisms. Quasars are therefore interpreted as cosmic converters: macroscopic windows where microscopic quark dynamics interact with cosmological-scale structures. Their emission becomes a direct observational signature of phase-transition physics usually accessible only in early-universe conditions. The model yields clear implications for cosmology, suggesting that quasars can function as testbeds for quark–gluon transitions, etheric-plasma behavior, and energy-conversion processes predicted by Quarkbase Cosmology.
Date: Sept 09, 2025
Author: Carlos Omeñaca Prado
ORCID: https://orcid.org/0009-0001-9750-5827
Resource type: Preprint
Publisher: Zenodo
License: CC BY-SA 4.0 International
Related links:
- https://zenodo.org/records/17717220
- https://archive.org/details/quasars-in-the-framework-of-quarkbase-cosmology
- https://www.academia.edu/145261387/Quasars_in_the_Framework_of_Quarkbase_Cosmology