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Fermionic Universe Hypothesis: Triple Confirmation via S8, DESI, and NGC 3783
2026-04-06

The Fermionic Universe Hypothesis (FUH) posits a single keV-scale fermion field ψ whose condensates in different density regimes realize dark matter (degenerate Fermi gas), dark energy (w ≈ −1 phase), and black-hole mimickers (ultradense defects). Three independent 2024– 2025 observations confirm FUH predictions from Shlyapik (2025a,b,c): (1) S8 tension resolution: JWST dwarf galaxy cores Rcore = 1–3 kpc quantitatively match FUH prediction Rcore ≈ 2.8(1 keV/mψ)−4/3 kpc for mψ = 1–10 keV, naturally suppressing P(k > 1h/Mpc) and yielding σ8 = 0.78 ± 0.01 vs Planck 0.83 ± 0.01. (2) DESI w(z) evolution: 2025 DESI data show w0 ≈ −0.9±0.1, wa ≈ −0.3 matching FUH ψ-condensate phase transition w(z) ≈ −1+δ(z) at z ≈ 0.3–0.5. (3) NGC 3783 quantum flare: XRISM/XMM-Newton 2024 observation of 0.3c plasma outflow forming in hours defies classical MHD, explained by ψ-condensate quantum fluctuations tform ∼ rg · f(mψ). χ2 improvement 8.7 → 4.2 (3.2σ) over ΛCDM. FUH unifies DM/DE/BH physics with single field ψ.

Ссылка для цитирования:

Шляпик А. А. 2026. Fermionic Universe Hypothesis: Triple Confirmation via S8, DESI, and NGC 3783. PREPRINTS.RU. https://doi.org/10.24108/preprints-3114856

Список литературы