Axi-Higgs Cosmology
Abstract
If the electroweak Higgs vacuum expectation value in early universe is higher than its present value GeV, the Li puzzle in BBN and the CMB/CDM tension with late-universe measurements on Hubble parameter are mitigated. We propose a model of an axion coupled to the Higgs field, named ``axi-Higgs'', with its mass and decay constant , to achieve this goal. The axion initial value yields an initial throughout the BBN-recombination epoch and a percent level contribution to the total matter density today. Because of its very large de Broglie wavelength, this axion matter density suppresses the matter power spectrum, alleviating the CMB/CDM tension with the weak-lensing data. It also explains the recently reported isotropic cosmic birefringence by its coupling with photons. Adding the axion (eV) in the fuzzy dark matter model to the axi-Higgs model allows bigger and to address the Hubble and tensions simultaneously. The model predicts that may be detected by the spectral measurements of quasars, while its oscillation may be observed in the atomic clock measurements.
Cite
@article{arxiv.2102.11257,
title = {Axi-Higgs Cosmology},
author = {Leo WH Fung and Lingfeng Li and Tao Liu and Hoang Nhan Luu and Yu-Cheng Qiu and S. -H. Henry Tye},
journal= {arXiv preprint arXiv:2102.11257},
year = {2021}
}
Comments
52 pages, 8 figures. Matches the published version in JCAP