What question did this study set out to answer?

This research aims to model the physical vacuum as a viscous fermionic condensate and explore its implications for particle mass.

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May 8, 2026Open Access

Rheological Properties of a Hypothetical Viscous Fermionic Condensate as a Physical Vacuum Substrate

Key Points

This research aims to model the physical vacuum as a viscous fermionic condensate and explore its implications for particle mass.
Developed a phenomenological model of a viscous fermionic condensate
Hypothesized a dynamic viscosity coefficient of approximately 1.2 × 10^−15 Pa·s
Discussed a phase transition at an energy threshold of 7.76 keV
Identified a phase transition from superfluid to viscous state at an energy threshold of 7.76 keV
Interpreted elementary particle mass through the hydrodynamic drag during motion of topological solitons

Abstract

This paper presents a phenomenological model of the physical vacuum as a macroscopic quantum state — a viscous fermionic condensate (VFC). We hypothesize the existence of a fundamental dynamic viscosity coefficient of the medium, η ≈ 1. 2 × 10^−15 Pa·s. A phase transition from a superfluid to a viscous state at an energy threshold of 7. 76 keV is discussed. The proposed approach allows for the interpretation of elementary particle mass as a result of the hydrodynamic drag of the medium during the motion of topological solitons.

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Alexander Shlyapik (Wed,) studied this question.

synapsesocial.com/papers/69fd7fb8bfa21ec5bbf0853b https://doi.org/https://doi.org/10.5281/zenodo.20052518

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