Profiling Cold New Early Dark Energy
Abstract
Recent interest in New Early Dark Energy (NEDE), a cosmological model with a vacuum energy component decaying in a triggered phase transition around recombination, has been sparked by its impact on the Hubble tension. Previous constraints on the model parameters were derived in a Bayesian framework with Markov-chain Monte Carlo (MCMC) methods. In this work, we instead perform a frequentist analysis using the profile likelihood in order to assess the impact of prior volume effects on the constraints. We constrain the maximal fraction of NEDE , finding at CL with our baseline dataset and similar constraints using either data from SPT-3G, ACT or full-shape large-scale structure, showing a preference over CDM even in the absence of a SH0ES prior on . While this is stronger evidence for NEDE than obtained with the corresponding Bayesian analysis, our constraints broadly match those obtained by fixing the NEDE trigger mass. Including the SH0ES prior on , we obtain at CL. Furthermore, we compare NEDE with the Early Dark Energy (EDE) model, finding similar constraints on the maximal energy density fractions and in the two models. At CL in the NEDE model, we find with our baseline and when including the SH0ES measurement of , thus corroborating previous conclusions that the NEDE model provides a considerable alleviation of the tension.
Cite
@article{arxiv.2302.07934,
title = {Profiling Cold New Early Dark Energy},
author = {Juan S. Cruz and Steen Hannestad and Emil Brinch Holm and Florian Niedermann and Martin S. Sloth and Thomas Tram},
journal= {arXiv preprint arXiv:2302.07934},
year = {2023}
}
Comments
14 pages, 7 figures, 1 table