Work information

Title Emergent Hierarchy: Planck Scale and Higgs Mass from Curved Geometry
The hierarchy problem between the Planck scale (~10¹⁹ GeV) and the Higgs boson mass (~125 GeV) remains one of the greatest open questions in theoretical physics. In this preprint, we explore a novel approach derived from the theory of Emergent Quantum Fields and Adaptive Gravity (CCEGA), where mass is not a fixed intrinsic property but an adaptive and emergent response to the curvature of spacetime. We show that the enormous gap between the electroweak and gravitational scales can be naturally interpreted as a dynamic geometric effect, rather than a fundamental inconsistency. This perspective offers new insights into the nature of mass and testable predictions in high-curvature environments.
Work type Technical
Tags quantum gravity, cosmology, alternative gravity model, emergent gravity, accelerated expansion of the universe, cosmological simulations, quantum fields, dark matter, ccega, theoretical physicist, adaptive gravity, deflection of light, black holes, unified theory, gravitational lensing, dark energy, field equations, cosmological model, theoretical cosmology, quantum fluctuations

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Registry info in Safe Creative

Identifier 2504161482722
Entry date Apr 16, 2025, 9:20 AM UTC
License Creative Commons Attribution-NonCommercial-NoDerivatives 4.0

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Copyright registered declarations

Author 100.00 %. Holder MARC LOPEZ SANCHEZ. Date Apr 16, 2025.


Information available at https://www.safecreative.org/work/2504161482722-emergent-hierarchy-planck-scale-and-higgs-mass-from-curved-geometry