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Appendix H: Precision Derivation of the Hawking Energy Profile via the Vacuum Viscous Shear Continuum
2026-06-27
This technical appendix provides a rigorous, non-mystical, and deterministic derivation of the black hole radiation energy profile, originally formulated phenomenologically by S. Hawking. Within the framework of the OCEAN project (FUH paradigm), a black hole of mass M is defined as an extreme rheological shear vortex within a material fermionic condensate. We demonstrate that the thermal energy output is a direct macroscopic consequence of viscous friction and the boundary shear gradient of the medium on the dual-hemisphere geometry of the Swarzschild horizon, completely eliminating the necessity for virtual particle annihilation or continuous vacuum divergences.
Ссылка для цитирования:
Shlyapik A. 2026. Appendix H: Precision Derivation of the Hawking Energy Profile via the Vacuum Viscous Shear Continuum. PREPRINTS.RU. https://doi.org/10.24108/preprints-3115662
Список литературы
1. L. D. Landau, E. M. Lifshitz, Fluid Mechanics: Volume 6 (Course of Theoretical Physics), Pergamon Press (1987).
2. R. E. Wyatt, Quantum Dynamics with Trajectories: Introduction to Quantum Hydrodynamics, Springer (2005).
3. I. Brevik, S. D. Odintsov, Cardy-Verlinde entropy formula in viscous cosmology, Phys. Rev.D 65, 067302 (2002).
4. S. W. Hawking, Particle creation by black holes, Communications in Mathematical Physics,1975.
5. A. Shlyapik, The Universe as an Ocean. Volume I, Litres (2026).
6. A. Shlyapik, The Universe as an Ocean. Volume II: Architecture of Reality, Litres (2026).
7. A. Shlyapik, The Universe as an Ocean. Volume III: Mechanical Minimum, Litres (2026).
8. A. Shlyapik, The Universe as an Ocean. Volume IV: Thermodynamics of the Ocean. Earlyand Late Epochs, Litres (2026).
9. A. Shlyapik, The Universe as an Ocean. Volume V: Foundations of Physics. Rheology ofReality, Litres (2026).
10. A. Shlyapik, The Universe as an Ocean. Volume VI: The Lock of the Fermionic Condensate, Litres (2026).
11. A. Shlyapik, The Universe as an Ocean Supplement to Part III: Mechanical Minimum, Litres (2026).