Work information

Title "The Shadows of Light: Gravitational Lensing in Emergent Gravity"
The universe, vast and silent, is a manuscript of shifting shadows and elusive truths. Its pages are written in the luminous strokes of distant galaxies, the ethereal dance of nebulae, and the fading echoes of stars that lived long before the first human gaze turned skyward. Yet among these celestial narratives, there is one story that stands apart—one where light itself bends to reveal the unseen.

This is the tale of gravitational lensing, the bending of light by cosmic masses, a phenomenon predicted by Einstein in 1915 and first observed by Eddington in 1919. What was once a subtle whisper of theory became a cosmic truth, a key to unlocking the hidden fabric of spacetime. But what if this bending of light is not merely a consequence of gravity as we understand it, but rather the fingerprint of an emergent force, a signature of a deeper structure governing the cosmos?

This work explores gravitational lensing through the CCEGA framework (Emergent Quantum Fields and Adaptive Gravity), a paradigm where the curvature of spacetime is not static but adapts dynamically, governed by an emergent potential . In this view, the deflection of light does not merely trace the path dictated by dark matter—it unveils a universe where gravity is an evolving entity, shaped by the fields that pervade existence itself.


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📜 Scientific Contribution

🔹 Deflection of Light as a Window into Emergent Gravity
This study presents a mathematical derivation of gravitational lensing in the context of emergent quantum fields, offering an alternative interpretation to the conventional dark matter paradigm.

🔹 A New Perspective on the Curvature of Spacetime
By introducing a dynamically evolving potential , this model suggests that spacetime curvature is not merely a consequence of mass-energy, but an adaptive structure shaped by hidden quantum interactions.

🔹 Computational and Analytical Verification
The deflection angle is derived and verified through Python-based numerical simulations, which visualize the interplay between emergent fields and gravitational lensing.

🔹 Observational Implications
This framework is tested against modern James Webb Space Telescope (JWST) observations, proposing a way to distinguish between standard lensing predictions and those arising from an emergent gravitational model.
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Work type Technical
Tags quantum field theory, unified theory, accelerated expansion of the universe, adaptive gravity, quantum fields, gravitational lensing, quantum fluctuations, ccega, theoretical physicist, cosmological simulations, quantum cosmology, alternative gravity model, dark matter, black holes, general relativity, field equations, dark energy, emergent quantum fields, cosmology, emergent gravity

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Registry info in Safe Creative

Identifier 2502010774875
Entry date Feb 1, 2025, 7:15 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 Feb 1, 2025.


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