lobal Journal of Science Frontier Research, A: Physics and Space Science, Volume 24 Issue 4

One of the possible reactions during the interaction of protons accelerated in the vicinity of a dark hole with matter is described by formula (6) p + X → π ⁰ + Y → γ + γ +Y (6) Although neutrinos react very weakly with matter, the likelihood of a reaction increases with energy, which is why superluminal neutrinos have been detected with confidence by the IceCube Observatory. III. C onclusion Thus, new astronomical observations of recent years say with all certainty that black holes formed by both dark and baryonic matter in their development into quasars become not a gravedigger of baryonic matter, but a factory of baryonic matter for new galaxies not only in the early Universe, but and in our time. R eferences R éférences R eferencias 1. Leonardo Ferreira, Nathan Adams, Christopher J. Conselice, et al. Panic! At the Disks: First Rest- frame Optical Observations of Galaxy Structure at z> 3 with JWST in the SMACS 0723 Field - Astrophysics > Astrophysics of Galaxies, arXiv: 2207.09428 [astro-ph.GA ] (Submitted on 19 Jul 2022) (v1), last revised 31 Aug 2022 (this version, v3)]) https://doi.org/10.48550/arXiv.2207.09428 2. Yu.N. Eroshenko News on the INTERNET. "Supermassive black holes in the early Universe" // Phys. Usp., 66:12 (2023), 1283–1284 3. Bogdan A. et al. “Evidence for the heavy-seed origin of carly supermassive black holes from a z≈X-ray quasar”//Nat. Astron. (2023) https://doi.org/ 10.1038/s41550-023-0211-9 4. Carlos R Argüelles, et al. “On the formation and stability of fermionic dark matter haloes in a cosmological framework” // Monthly Notices of the Royal Astronomical Society, Volume 502, Issue 3, (April 2021), Pages 4227–4246, https://doi.org/ 10.1093/mnras/staa3986 5. Etkin V. A. Alternative to Newton's law of gravity // journal “Problems of Science”, 6(54) (2020).4-11. 6. Xavier Calmet et al, “Quantum gravitational corrections to the entropy of a Schwarzschild black hole” // Physical Review D (2021). DOI: 10.1103/ PhysRevD.104.066012 7. Kuzkin V.A., Krivtsov A.M., Ballistic resonance and thermalization in the Fermi-Pasta-Ulam-Tsingou chain at finite temptrature // Physical Review E, Volume 101, Issue 4 (Year: 2020) 8. Stephen Hawking. “From the Big Bang to Black Holes” // New York: Bantam Books, 1988 9. Ingrid Fadelli, “Researchers observe stationary Hawking radiation in an analog black hole” // Phys.org , FEBRUARY 19, 2021 10. K. F. F. Law, Y. Abe, A. Morace, Y. Arikawa, S. Sakata, S. Lee, et al, “Relativistic magnetic reconnection in laser laboratory for testing an emission mechanism of hard-state black hole system” // Phys. Rev. E 102, 033202 – Published 3 September 2020 11. Alexey Berdyugin, A.K. Geim, et al, “Out-of- equilibrium criticalities in graphene superlattices” // SCIENCE, Vol 375, Issue 6579, (2022), DOI: 10.1126/science.abi8627 12. D. B. Cassidy, A. P. Mills, Jr. “The production of molecular positronium” // Nature. V. 449. (2007) P. 195–197. 13. The future opens with a quantum key. Sat. articles by academician RF Avramenko.-M., “Chemistry”, (2000). 14. V.V. Dikusar, A.A. Tyunyaev “Vacuum, concepts, structure, properties” // Computing Center RAS, (2013) 15. Kevin K. Cook, Allison Kirkpatrick, Michael Estrada, et al. , Light Die: A Vanishing Cold Quasar in X-Rays at z ~ 0.405, // November 6, 2020, Astrophysical Journal. DOI: 10.3847 / 1538-4357 / abb94a 16. Stanislav Konstantinov, “Superluminal neutrinos - particles of hot dark matter of dark holes”// Journal “Physical in Higher Universities”, Volume: 26, Number: 3, (2020) Pages: 12-21. UDC: 372.853 Global Journal of Science Frontier Research ( A ) XXIV Issue IV Version I Year 2024 98 © 2024 Global Journals The Nature of Supermassive Black Holes in the Early Universe and the Birth of Baryonic Matter