Steep Increase in ASASSN-18bt's early brightness influenced by new physics starspot black holes

Quote: ""While the steep increase in ASASSN-18bt's early brightness could indicate that the explosion collides with another star, our follow-up data don't fit predictions for how this should look," Holoien said. "Other possibilities, such as an unusual distribution of radioactive material in the exploded star, are a better explanation for what we saw"
Q-FFF Theory however says: The anomalous Early brightness is assumed to be created by the influence of multiple "Starspot black holes" ( former comet nuclei) in the explosion process. HOWEVER until now, nobody seem to support such a starspot BH model, because BH should swallow all stars from the inside, which is not the case in Q-FFF Theory.
Because BHs repell all fermions in Q-FFF Theory, they eat the vacuum particle lattice as the base for gravity effects. see:
https://www.sciencedaily.com/releases/2018/11/181130090154.htm?fbclid=IwAR1949UlyM28M8sMwscvNxOygBmvfvhALWA9XiOXm1yPlJf_NKfjuL-A7G4
and:
Tidal Star Disruption Events (TDE) by Fermion Repelling Black Holes in Quantum FFF Theory.
http://vixra.org/pdf/1805.0541v1.pdf
and:
An Alternative Stringy Black Hole nucleus with Entropy Decrease and Plasma Creation.
http://vixra.org/pdf/1103.0011v3.pdf

The Fermion Repelling Black Hole with Entropy Decrease.