GUP/BEB correspondence
Abstract
We develop a fully expectation--value formulation of the GUP/Bekenstein--bound (BEB) correspondence, building on \cite{Ali:2024tbd,Ali:2022ckm,Ali:2022ulp}. Using Dirac's commutator--Poisson equivalence, the BEB supplies an information backreaction on the GUP--deformed bracket; at saturation the residual uncertainty in a sector cancels, enabling \emph{operational} simultaneity of conjugate expectations and resolving the EPR tension without hidden variables. A single self-consistency then fixes intrinsic confinement scales: the full (linearquadratic) GUP reproduces the hydrogen Bohr radius (electron) and the proton charge radius (hydrogen nucleus). The same correspondence predicts an information--controlled crossover from a short--distance complex (evanescent) regime to an emergent real (Lorentzian) regime, with a symmetry flow from complex frames to ; under scale transmutation the short--distance is repurposed as the Pati--Salam . Incorporating exterior--field entropy at horizons defines an effective Planck constant consistent with generalized--entropy extremality, tying entropy--area physics directly to the GUP at the expectation level.
Cite
@article{arxiv.2511.08661,
title = {GUP/BEB correspondence},
author = {Ahmed Farag Ali},
journal= {arXiv preprint arXiv:2511.08661},
year = {2025}
}
Comments
revtex4, 25 pages, Published in Modern Physics Letters A