Black Holes Dynamics: A Quantum Tachyonic Gravity Interpretation

v1.0: This paper proposes a new interpretation of black holes within the Quantum Tachyonic Gravity (QTG) framework. Rather than singularities of infinite density, black holes are modeled as collapse rebound anomalies: scars formed when excessive quantum pressure creates an unstable antimatter rebound that annihilates baryonic matter, leaving behind a coherence void. Simulations demonstrate the field gradient rushing inward to stabilize the resulting decoherence scar. The paper includes ASCII-safe equations and a visual simulation appendix.

v2.0: Refinement of the concept taking into consideration shadow-mass and tachyonic field dynamics. Black holes is then to be considered a "shadow-mass vortex" where tachyonic interactions overwhelm baryonic asymmetries reabsorbing them into the tachyonic substrate.

1. Commentary on Informational Conservation as Frequency Interference and Synchronization in QTG.
2. Commentary on Black Holes Boundaries as Natural Zones of Antimatter Genesis.