Modern astrophysics regards the Sun as an isotropic thermonuclear reactor, yet it faces unresolved questions regarding the anomalous heating of the Solar Corona and the mechanical nature of the wave-particle duality of light. This paper proposes a Stellar Cavitation Model based on the principles of Substratum Hydrodynamics (Papers I-XIII). We hypothesize that the primary source of solar energy generation may not be fusion itself, but rather cumulative jets with superluminal velocities (Vg ≈ 10⁷ c - 10¹⁰ c) triggered by the collapse of Substratum vortices. These jets carve stable cavitational channels (tubes) within the Substratum. The photon is defined as the surface wave of these superluminal channels, propagating at speed c. The model also considers methods for empirical verification, including the analysis of the speed of quantum entanglement and the temporal structure of solar flares.
Vakhtang Mchedlishvili (Tue,) studied this question.