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Empirical Confirmations of the Superdense Ether Theory: A Comparative Analysis with Plasma MHD, Topological Solitons, and Laboratory Observations (1980–2026)
2026-04-28

The Superdense Ether Theory (Jensen, Abdurakhmanov, Agayev, 2026) pos- tulates that physical vacuum is a superdense, superfluid 4D continuum, and ele- mentary particles are topological solitons (Hopf fibrations) in this medium. This paper compares the theory’s predictions with five independent sources: (1) the lab- oratory observation by A. Abdurakhmanov (1980-81) of alcohol→water transition in a sealed ampoule; (2) exact MHD soliton solutions by Kamchatnov (1982); (3) Ra˜nada’s topological electromagnetic fields (1989); (4) Oleinik’s quantum soliton model of the electron (1997); and (5) numerical MHD relaxation simulations by Smiet, Candelaresi et al. (2015-2016). All five converge on the same mathematical structure: the Hopf invariant H determines stability, energy, and mass of localized structures in a continuous medium. The Superdense Ether Theory provides the unified framework that explains all five observations as manifestations of the same underlying physics.

Ссылка для цитирования:

Jensen J. 2026. Empirical Confirmations of the Superdense Ether Theory: A Comparative Analysis with Plasma MHD, Topological Solitons, and Laboratory Observations (1980–2026). PREPRINTS.RU. https://doi.org/10.24108/preprints-3115083

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