Article citationsMore>>
Rowe, M.A., Kielpinski, D., Meyer, V., Sackett, C.A., Itano, W.M., Monroe, C., et al. (2001) Experimental Violation of a Bell’s Inequality with Efficient Detection. Nature, 409, 791-794.
https://doi.org/10.1038/35057215
has been cited by the following article:
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TITLE:
Coupled Fields and Gravitation: A Unified Real-Field Framework for Quantum Gravity
AUTHORS:
Doron Kwiat
KEYWORDS:
Coupled Fields, Quantum Gravity, Planck Density, Spin-Curvature Coupling, Real-Field Fermions
JOURNAL NAME:
Journal of High Energy Physics, Gravitation and Cosmology,
Vol.12 No.1,
January
30,
2026
ABSTRACT: This work explores the connection between the Coupled-Fields (CF) model and gravitation, proposing a unified interpretation in which spacetime curvature arises from gradients in field coupling energy rather than from mass-energy alone. The tension and exchange dynamics of the two real fields produce local distortions equivalent to gravitational curvature, suggesting that gravity is a macroscopic manifestation of the same underlying field interactions that govern quantum behavior. By formulating the CF Lagrangian in curved spacetime, the model naturally incorporates general-relativistic effects while preserving determinism. The analysis shows that Planck’s constant and Newton’s constant G may both originate from the same internal field structure, linking quantum and gravitational scales through the coupling constant
κ
. We conclude, that a quantum theory of gravitation can emerge without quantizing spacetime itself—gravity instead reflects coherent variations in coupled-field energy density. This approach provides a physically grounded route toward unification, bridging quantum mechanics and general relativity within one continuous real-field ontology.