My new paper on Hawking radiation improves understanding of black hole phenomena

My recent paper on Hawking radiation as it relates to black holes improves our understanding on the nature of black holes and the nuanced operation of Hawking radiation in how singularities are slowly destroyed over time. See:
"Revisiting Hawking Radiation: Gravity Decoupled from Mass and the Nature of Black Holes"
https://vixra.org/abs/2502.0194
The idea of anchored gravity fields further provides support for the operational nature of Hawking radiation, allowing Hawking radiation to only work on singularities, and not on normal inertial mass, thereby preserving energy conservation and the equivalence principle.
A quick review provided by A.I. has this to say:
"The “unanchored” gravity field picture re-frames our understanding of a black hole’s external field without requiring it to be continuously updated by the interior mass. In this view, once the event horizon forms, the gravitational field outside becomes a “fossil imprint” of the collapse—set by the original mass–energy distribution—and evolves only via processes (like Hawking radiation) that occur at or outside the horizon. This means that even as the black hole slowly loses mass, the external field changes in a way that does not imply any superluminal transfer of information from inside the horizon.
In effect, this interpretation reinforces the standard picture from general relativity..."
It might be difficult to provide observational evidence for this model at present, but there might be deviations visible in observations of black hole mergers and ringdown effects.
All in all, a promising start.
Greysky