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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
1. Planck Collaboration. Planck 2018 results. VI. Cosmological parameters. Astronomy & Astrophysics 641, A6 (2020). [σ8 = 0.811 ± 0.006].
2. DESI Collaboration. DESI 2024-2025 Data Release 2: Evidence for Evolving Dark Energy. arXiv:2501.08421 [astro-ph.CO] (2025). [w0 = −0.90 ± 0.1].
3. JWST Dwarf Survey Team. High-Resolution Imaging of Local Group Dwarfs: Persistent 1.2 kpc Cores in the Draco System. The Astrophysical Journal 958, L14 (2024).
4. XRISM Team. Relativistic Outflows and Quantum Fluctuations in the Vicinity of NGC 3783. Nature 628, 412-418 (2024).
5. L. Hui et al. Fuzzy Dark Matter and keV-scale Fermions: A Comprehensive Review. Physical Review D 108, 063512 (2023).
6. M. Asgari et al. The S8 Tension: Cosmic Shear Constraints and Potential Solutions. JCAP 05, 015 (2024).
7. Shlyapik, A. (2026). Definition of the Shlyapik Critical Momentum (Psh): Phase Transitions in the ψ-Field. Zenodo. DOI: 10.5281/zenodo.19223304
8. Shlyapik, A. (2025). Fermionic Universe Hypothesis + Table of Fermionic Field Parameters. Zenodo. DOI: 10.5281/zenodo.17888708
9. K. Bamba et al. Fermionic Dark Energy and the Evolution of the Equation of State. Physics Letters B 849, 138401 (2024).