From minimal-length quantum theory to modified gravity
Abstract
In this work, we consider generalized uncertainty principles (GUPs) that incorporate a minimal length through generic momentum-dependent deformation functions. We thus develop a systematic approach connecting such a framework to effective gravitational actions extending general relativity. By examining quantum gravity-motivated corrections to black hole entropy induced by the GUP and employing Wald's formalism, we reconstruct modifications to Einstein's gravity within the contexts of and theories. In this way, we establish a direct mapping between the GUP parameters and the higher-order curvature coefficients in the gravitational Lagrangian. As an illustrative application, we compute corrections to the general relativistic prediction for light deflection, which in turn allows us to infer a stringent upper bound on the minimal measurable length. Our results show that GUP-induced effects can be consistently embedded into extended gravity theories, offering a promising framework for testing quantum gravity phenomenology through astrophysical and cosmological observations.
Cite
@article{arxiv.2511.14869,
title = {From minimal-length quantum theory to modified gravity},
author = {Rocco D'Agostino and Pasquale Bosso and Giuseppe Gaetano Luciano},
journal= {arXiv preprint arXiv:2511.14869},
year = {2026}
}
Comments
11 pages, 1 table. Matches the version published in Physics Letters B