Abstract: This study applies the Raumvektortheorie (RVT) and the Universal Stellar Kernel (USK) to the anomalous runaway supermassive black hole candidate RCP 28 (z=0. 964). While the standard cosmological model struggles to explain the extreme linearity and luminosity of the 200, 000-light-year stellar trail, this analysis demonstrates that these features are direct consequences of anisotropic projection geometry within the 2D Lorentzian aether. By utilizing the USK coordinate transformation, we derive a projection divergence of D 0. 0008, accounting for the observed 99. 92% linearity of the trail. Furthermore, the perceived velocity of 1, 600 km/s is identified as an RVT-Metric amplified effect; the USK-corrected real velocity is calculated at 889 km/s (ₑₕₓ = 1. 799). This geometric framework eliminates the requirement for Dark Matter, as the observed gravitational and luminous anomalies are fully resolved through the Type-IV control of the D_ tensor. This work extends the empirical validation of RVT from galactic to intergalactic scales.
Karasmanis Peter Dimitrios (Sat,) studied this question.