Braneworld cosmology in $f(\mathbb{Q})$ gravity
Abstract
This work investigates the cosmology of a thick brane within the context of gravity, an extension of symmetric teleparallelism. Using a five-dimensional Friedmann-Lema\^itre-Robertson-Walker metric, we solve the field equations to obtain dynamic solutions for the scale factor. We demonstrate that the effective cosmological constant on the brane naturally emerges as a function of the extra dimension , being both generated and confined by the curved geometry of the bulk. We analyze two distinct regimes: Randall-Sundrum-type thin brane and thick brane through the Sine-Gordon model. Our model reproduces accelerated expansion solutions without requiring the introduction of a fundamental cosmological constant on the brane, showing that the cosmic acceleration emerges as a consequence of the brane's embedding and the gravitational dynamics in the bulk . The variation of the parameters in symmetric teleparallelism enables different cosmological scenarios, including de Sitter-type expansion, contraction, and oscillatory solutions. The results indicate that the brane's position in the bulk determines its cosmology, providing a geometric explanation for the smallness of the observed cosmological constant.
Cite
@article{arxiv.2603.03435,
title = {Braneworld cosmology in $f(\mathbb{Q})$ gravity},
author = {J. J. Ramos and J. E. G. Silva},
journal= {arXiv preprint arXiv:2603.03435},
year = {2026}
}
Comments
19 pages, 9 figures