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137. Beyond the Planck Scale: Large Quantum Transition Scales in CCEGA
03/18/2025
2503181193472
Creative Commons Attribution-NonCommercial-NoDerivatives 4.0

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This preprint explores how the Emergent Quantum Fields and Adaptive Gravity (CCEGA) Theory redefines the quantum-to-classical transition scale. Instead of the Planck length (), the theory introduces a new quantum scale , determined by the critical curvature .

Key aspects covered in this work:

Theoretical foundation of as a function of .

Implications for quantum gravity and spacetime structure.

Possible observational tests in gravitational waves, the cosmic microwave background (CMB), and black hole physics.


CCEGA naturally predicts a quantum-classical transition scale that may be experimentally accessible, challenging standard assumptions about the limits of quantum gravity.

Technical
general relativity
emergent time
ccega
emergent gravity
theoretical physicist
cosmological simulations
cosmological model
cosmology
quantum gravity
quantum cosmology
dark matter
deflection of light
field equations
theoretical cosmology
accelerated expansion of the universe
adaptive gravity
black holes
quantum fluctuations
gravitational lensing
dark energy

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MARC LOPEZ SANCHEZ
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Declaration Date: Mar 18, 2025, 2:41 AM

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Title 137. Beyond the Planck Scale: Large Quantum Transition Scales in CCEGA
This preprint explores how the Emergent Quantum Fields and Adaptive Gravity (CCEGA) Theory redefines the quantum-to-classical transition scale. Instead of the Planck length (), the theory introduces a new quantum scale , determined by the critical curvature .

Key aspects covered in this work:

Theoretical foundation of as a function of .

Implications for quantum gravity and spacetime structure.

Possible observational tests in gravitational waves, the cosmic microwave background (CMB), and black hole physics.


CCEGA naturally predicts a quantum-classical transition scale that may be experimentally accessible, challenging standard assumptions about the limits of quantum gravity.
Work type Technical
Tags general relativity, emergent time, ccega, emergent gravity, theoretical physicist, cosmological simulations, cosmological model, cosmology, quantum gravity, quantum cosmology, dark matter, deflection of light, field equations, theoretical cosmology, accelerated expansion of the universe, adaptive gravity, black holes, quantum fluctuations, gravitational lensing, dark energy

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Identifier 2503181193472
Entry date Mar 18, 2025, 2:41 AM UTC
License Creative Commons Attribution-NonCommercial-NoDerivatives 4.0

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Author 100.00 %. Holder MARC LOPEZ SANCHEZ. Date Mar 18, 2025.


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