Hi Friends!

I've been extremely interested in Astrophysics as it relates to Black Holes. A few theories have been scratching at my brain over the past few months, but to 'prove them,' I need to somehow link my theories to actual observational data...

I created some programs to map out observations from the Chandra X-Ray Observatory (data from here for Gaia BH1 and here for Gaia BH3). Attached are .gif files and images of the program outputs. These visualizations focus on visualizing energy events, which are rapid redistributions of energy near the black hole's position. These events are particularly interesting because they could represent certain energy exchanges tied to some sort of feedback mechanisms occurring near or just outside the event horizon.

Gaia BH1 Observational Data

Gaia BH3 Observational Data

Gaia BH1 and BH3 System Comparison (STILL A WORK IN PROGRESS. \"Rate\" and \"Healing Events\" are not working correctly yet)

My Theory:

I believe black holes exhibit what I call a "quantum healing factor", a feedback mechanism that stabilizes entropy and essentially stitches the universe back together. When a supernova fractures space-time to create a black hole, I theorize that the universe responds with quantum processes to repair these ruptures. This quantum healing factor redistributes energy and entropy near the event horizon, maintaining stability and preventing the collapse of space-time itself. The energy events visualized in my data may represent these quantum processes in action, acting as localized "stitches" that mend the fabric of the universe.

Furthermore, I propose that the interior of a black hole is not chaotic but represents a state of what I call a state of "perfect order", governed by laws entirely separate from those of our universe. Entropy near the event horizon is a function of the quantum healing factor, with black holes dynamically balancing the tension between order within and entropy around the event horizon. If these observations indeed reflect such processes, they suggest that black holes are not merely destructive forces, but vital components in the universe's systemic processes.

DISCLAIMER: I assume that most of you are going to think I'm far out there, or crazy, but just play along with my thought process. If anything, maybe my observational data models can help out in other areas...

What I’ve Observed:

Clustering of Energy Events Near the Black Hole:

Both Gaia BH1 and BH3 exhibit localized bursts of high-energy activity around their estimated positions (I've localized this through using an Astropy coordinates library). For BH1, these bursts are more frequent but less intense, while BH3 shows fewer but more energetic bursts. This could possibly relate to differences in their masses (BH1 being ~9 solar masses and BH3 ~33 solar masses) or the differing nature of their environments.

Radial Energy Distribution:

Energy events decrease rapidly with distance from the black hole, but the falloff patterns differ significantly between BH1 and BH3. BH3 shows a steeper gradient, which could indicate stronger gravitational and relativistic effects due to its larger mass.

Temporal Patterns of Healing Events:

The energy events occur in bursts, suggesting cyclic or feedback-like behavior in how energy is exchanged near the black hole.

Angular Energy Dependencies:

The angular distribution of energy (visualized in the polar plot) reveals varied, non-uniform energy dynamics around the black hole. This could be tied to accretion disk dynamics, relativistic beaming, or frame-dragging effects near the event horizon.

What Do You Think?

The energy events observed in these visualizations could represent direct evidence of energy redistribution processes tied to quantum and relativistic effects. If so, they may support the idea that black hole entropy is dynamically stabilized through localized quantum healing phenomena.

However, there are still questions I’m grappling with:

• Could these energy events truly be feedback mechanisms tied to quantum healing, or are there alternative explanations (e.g., observational artifacts or accretion effects)?
• Why does BH1 exhibit higher healing efficiency (rate of energy redistribution relative to total energy) compared to BH3? Is it a function of mass, or environment? The other thought I had is that BH1 could be in a state of equilibrium due to its orbiting G-type star (which has a fast orbital period of about 186 days or so). It is not 'dormant'.
• Does the variability in energy gradients between BH1 and BH3 indicate something fundamental about how black holes of different masses regulate entropy?

I’d love to hear your thoughts on my models, however positive or negative (LOL), but please try to keep it constructive! What do you make of the energy clustering, angular dependencies, and temporal dynamics in the gifs and plots?