We study the phenomenology of a class of minimally modified gravity theories called f(H) theories, in which the usual general relativistic Hamiltonian constraint is replaced by a free function of it. After reviewing the construction of the theory and a consistent matter coupling, we analyze the dynamics of cosmology at the levels of both background and perturbations, and present a concrete example of the theory with a 3-parameter family of the function f. Finally, we compare this example model to Planck data as well as some later-time probes, showing that such a realization of f(H) theories fits the data significantly better than the standard ΛCDM model, in particular by modifying gravity at intermediate redshifts, z≃743.
@article{arxiv.2005.13972,
title = {Minimally Modified Gravity fitting Planck data better than $\Lambda$CDM},
author = {Katsuki Aoki and Antonio De Felice and Shinji Mukohyama and Karim Noui and Michele Oliosi and Masroor C. Pookkillath},
journal= {arXiv preprint arXiv:2005.13972},
year = {2020}
}
Comments
21 pages, 10 figures, matches with published version