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Entropy–Curvature Feedback: The Physics Behind the Transfer Interface Field (TIF) By Richard Lee Crowton Published: August 20, 2025
- richardcrowton
- Aug 20
- 2 min read
How entropy destabilises spacetime curvature and triggers regeneration in Crowton’s Cosmogenic Field Theory (CCFT)
Introduction
In cosmology, black holes are often described as the ultimate endpoints of matter and energy — singularities where the laws of physics break down. But in Crowton’s Cosmogenic Field Theory (CCFT), black holes play a very different role. They are not dead ends, but regenerative gateways.
The key mechanism that drives this transformation is something I call entropy–curvature feedback.
What Is Entropy–Curvature Feedback?
In simple terms:
Entropy is a measure of disorder or energy dispersal.
Curvature refers to the bending of spacetime caused by mass and energy.
In my model, as entropy builds within a black hole system, it begins to destabilise the curvature of spacetime itself. This feedback loop eventually forces a transition — a release point — where the black hole is no longer just an absorber but becomes a generator of renewal.
The Role of the Transfer Interface Field (TIF)
This transition does not happen randomly. It is mediated by what I describe as the Transfer Interface Field (TIF) — a tensor-based field that acts like a bridge between collapse and regeneration.
Without entropy–curvature feedback, the TIF would never activate.
With it, the black hole crosses a threshold, transforming into a cosmic recycler.
In this way, entropy–curvature feedback provides the physics behind TIF, explaining how matter, energy, and even information can be redistributed into nebulae and star-forming regions.
Why It Matters
Understanding this process means:
Black holes are not “the end” — they are integral to cosmic evolution.
Information is not lost — it is transferred through the TIF.
The universe has a built-in renewal mechanism, preventing entropy from being a one-way path to heat death.
This bridges thermodynamics, relativity, and cosmology in a unified framework.
Everyday Analogy
Think of a pressure relief valve in engineering.
Too much pressure builds up in a system, it destabilises.
The valve activates, releasing energy in a controlled way.
Entropy–curvature feedback is the cosmic version of that valve. It prevents collapse from being absolute and instead triggers renewal.
Conclusion
The concept of entropy–curvature feedback is not just a theoretical curiosity. It is the engine that drives CCFT and makes the Transfer Interface Field possible.
In the next blogs, I’ll explore how these ideas align with observational evidence — from JWST’s glimpses of early galaxies to gravitational wave echoes that suggest hidden structures at black hole horizons.
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