What question did this study set out to answer?

The aim is to clarify that vacuum viscosity in the fermionic universe hypothesis (FUH) is not a return to aether theory, but arises from quantum properties.

April 12, 2026Open Access

Why the Fermionic Universe Hypothesis is Not Aether

Key Points

The aim is to clarify that vacuum viscosity in the fermionic universe hypothesis (FUH) is not a return to aether theory, but arises from quantum properties.
Analyzed viscous forces in the context of the FUH model.
Used quantum hydrodynamics to describe vacuum properties.
Investigated the emergence of viscosity from a fermionic condensate.
Demonstrated that viscosity is a natural outcome of the quantum nature of space.
Showed that the vacuum is not empty but a dense quantum ocean.
Clarified that viscosity is an inherent macroscopic response, not an external factor.

Abstract

This paper demonstrates that vacuum viscosity in the FUH model is not a regression to aether theory, but a manifestation of the quantum properties of space. We address criticisms regarding the fundamentality of viscous forces by showing they emerge naturally from the physics of a fermionic condensate. Instead of an empty void, we treat the vacuum as an ultradense quantum ocean (ψ-field). Using the framework of quantum hydrodynamics, we explain that viscosity is not an external "additive" to equations, but a macroscopic response of this medium. Quantum-Hydrodynamic Nature of Vacuum Viscosity in the FermionicUniverse Hypothesis (FUH).

Why the Fermionic Universe Hypothesis is Not Aether

Key Points

Abstract

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