Work information

Title Emergent Quantum Fields and Adaptive Gravity: Resolving Singularities through Curvature Saturation
Singularities in General Relativity represent a breakdown of spacetime structure, where curvature diverges and physical laws cease to apply. Within the CCEGA (Cosmic Curvature Emergence from Gravitational Adaptation) framework, we propose a new mechanism in which curvature saturation at prevents the formation of singularities.

This study derives the mathematical conditions for curvature stabilization, demonstrating that an emergent quantum field dynamically counteracts extreme gravitational collapse. We explore how this mechanism alters black hole interiors, modifies the final states of gravitational collapse, and introduces a natural resolution to the information paradox.

Furthermore, we compare CCEGA predictions with observational constraints from gravitational waves, event horizon imaging, and black hole mergers. The proposed curvature stabilization model offers testable predictions that could distinguish it from other singularity-resolution approaches in quantum gravity and modified theories of General Relativity.
Work type Technical
Tags accelerated expansion of the universe, dark energy, quantum fields, unified theory, deflection of light, emergent gravity, general relativity, theoretical cosmology, quantum cosmology, quantum gravity, adaptive spacetime, emergent time, gravitational lensing, cosmological model, alternative gravity model, ccega, cosmology, adaptive gravity, field equations, quantum fluctuations

-------------------------

Registry info in Safe Creative

Identifier 2503171189140
Entry date Mar 17, 2025, 3:31 PM UTC
License All rights reserved

-------------------------

Copyright registered declarations

Author 100.00 %. Holder MARC LOPEZ SANCHEZ. Date Mar 17, 2025.


Information available at https://www.safecreative.org/work/2503171189140-emergent-quantum-fields-and-adaptive-gravity-resolving-singularities-through-curvature-saturation