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Beyond the Big Bang: Could Gravity-Induced Decoherence and a Photon-Centric Universe Explain Dark…
- The Collective Entanglement Disruption (CED) hypothesis introduces the concept that gravity induces quantum decoherence, altering quantum systems' evolution.
- CED extends beyond traditional models by considering the influence of spacetime curvature and gravitational time dilation on quantum coherence.
- The theory proposes gravity as a universal decoherence field disrupting quantum entanglement mimicking dark matter's effects.
- The Photon-Centric Model redefines photons as active agents shaping reality and spacetime structure, potentially explaining dark matter distribution without new particles.
- CED and the Photon-Centric Model offer insights into dark matter's quantum-gravitational nature, interacting primarily through gravity and photon-mediated effects.
- These models make testable predictions aligning with recent data, such as varying quantum decoherence rates with spacetime curvature.
- Observing high-photon-density environments can provide evidence for the Photon-Centric Model's correlation with dark matter distribution.
- Experimental validation through quantum optics and astrophysical observations could reshape our understanding of dark matter and the cosmos.
- If accurate, these theories could revolutionize quantum mechanics and challenge the traditional view of spacetime as a passive background.
- Challenges include defining the gravity-decoherence mechanism and developing the mathematical framework for photon-induced spacetime geometry.
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