NEW: Q-FFF model says: Black Holes repel and even create Fermions out of the virtual Axion Vacuum.
A tidal disruption event (TDE) occurs when a star passes sufficiently close to a supermassive black hole so that the "tidal formed disk", which results in a "transient flare" of emission across the electromagnetic spectrum. (NGC 7392)
see: https://iopscience.iop.org/article/10.3847/2041-8213/acc02f/pdf
However, according to the Q-FFF Model of new physics, the black hole could not devour the star (Fermions) due to the new physics "trapped space horizon" of Penrose combined with the Q-FFF postulate that of the black hole, which is repelling all Fermions.
Only the starspot micro black holes can be partly devoured, most of them will be creating a tadpole with plasma tail running away from the Black Hole.
Only the disc formation should be observed as the remnants of the star in combination with the transformation of the plasma disc into both jets leaving the place in opposite direction. into both- or even more GABHs (Galaxy Anchor Black Holes) see also the Andromeda black holes as evidence.
Below, the transfer of the disc material of the "tidal formed disc" into the "transient flare"
The observed mid-IR flare, though, corresponds to the dust echo of this intrinsic flux, and its evolution depends on both the intrinsic emission and the dust distribution.
NGC 7392 is a nearby galaxy, located at around 42.3 Mpc.
To the best of our knowledge, this is the closest TDE detected in the last decade. Yet, there was no flare detected in its optical emission. Physically, this was probably the result of heavy obscuration of the transient source, which made it undetectable in the optical wave band.
At the same time, those dual jets could be observed also as "Transient fares."