Neglected solutions in quadratic gravity
Abstract
We report on several previously overlooked families of static spherically symmetric solutions in quadratic gravity. Our main result concerns the existence of solutions whose leading exponents depend on the ratio of the four-derivative couplings. We demonstrate that the space of models with contains a dense set that admits non-Frobenius solutions (in standard Schwarzschild coordinates), with certain rational numbers . These solutions correspond to a singular core at . Another related non-Frobenius family, , exists for a dense set of models with , describing a singular boundary at . Both families are uncovered by recasting the metric into special coordinates in which the solutions become Frobenius. Additionally, for models with real ratios we identify six novel families of non-Frobenius solutions around points , describing horizons and wormhole throats. Finally, we re-derive and summarize all known families of solutions in modified as well as in the standard Schwarzschild coordinates.
Keywords
Cite
@article{arxiv.2509.07317,
title = {Neglected solutions in quadratic gravity},
author = {Breno L. Giacchini and Ivan Kolář},
journal= {arXiv preprint arXiv:2509.07317},
year = {2026}
}
Comments
7 pages. v2: Discussion on new solutions around horizons and wormholes extended slightly. A shortened version of this paper was published as a letter in PRD