Quarkbase Cosmology — Official Collection
Published October 15, 2025 | Version v1
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Reconfirmation of the Relativistic Invariance of the Theory of Quarkbase (eng.): Detailed Mathematical Analysis

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This work provides the complete English edition of the detailed mathematical analysis confirming the relativistic invariance of Quarkbase Cosmology. The study derives the covariant scalar-field action, the regularised Yukawa solution for compact quarkbases, the full energy–momentum tensor, and the propagation of small perturbations within the etheric plasma.

Both isotropic and anisotropic corrections to the phase velocity are quantified and compared against the most stringent modern constraints, including Fermi–LAT, GRB 221009A, and SME bounds. The results show that the theory preserves Lorentz invariance within experimental limits, with predicted deviations satisfying |Δc/c| < 10⁻¹⁵ and anisotropy constraints |ε| < 2×10⁻¹⁴.

This analysis consolidates the mathematical foundation of the Quarkbase framework and reinforces its compatibility with contemporary high-precision tests of relativistic physics.

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Reconfirmation_Relativistic_Invariance_of_Quarkbase_Cosmology_eng_Detailed_Mathematical_Analysis.pdf

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Preprint: https://archive.org/details/reconfirmation-relativistic-invariance-of-quarkbase-cosmology-eng-detailed-mathematical-analysis (URL)

References

  • Omeñaca Prado, C. (2025). Reconfirmation of the Relativistic Invariance of the Theory of Quarkbase: Detailed Mathematical Analysis. Internet Archive
  • Omeñaca Prado, C. (2025). Relativistic Invariance and Experimental Constraints on Quarkbase Cosmology.
  • Omeñaca Prado, C. (2025). The Functioning of the Universe: Quarkbase Cosmology. Internet Archive.
  • Omeñaca Prado, C. (2025). The Double-Slit Experiment in Quarkbase Cosmology. Internet Archive.
  • Omeñaca Prado, C. (2025). Quarkbase Explanation of Superconductivity and Thermal Hyperconductivity in Graphene. Internet Archive.
  • Omeñaca Prado, C. (2025). And Ether Said: Let There Be Relativity. Internet Archive.