Using the CMB angular power spectrum to study Dark Matter-photon interactions
Abstract
In this paper, we explore the impact of Dark Matter-photon interactions on the CMB angular power spectrum. Using the one-year data release of the Planck satellite, we derive an upper bound on the Dark Matter-photon elastic scattering cross section of sigma_{DM-photon} < 8 x 10^{-31} (m_DM/GeV) cm^2 (68% CL) if the cross section is constant and a present-day value of sigma_{DM-photon} < 6 x 10^{-40} (m_DM/GeV) cm^2 (68% CL) if it scales as the temperature squared. For such a limiting cross section, both the B-modes and the TT angular power spectrum are suppressed with respect to LCDM predictions for l > 500 and l > 3000 respectively, indicating that forthcoming data from CMB polarisation experiments and Planck could help to constrain and characterise the physics of the dark sector. This essentially initiates a new type of dark matter search that is independent of whether dark matter is annihilating, decaying or asymmetric. Thus, any CMB experiment with the ability to measure the temperature and/or polarisation power spectra at high l should be able to investigate the potential interactions of dark matter and contribute to our fundamental understanding of its nature.
Cite
@article{arxiv.1309.7588,
title = {Using the CMB angular power spectrum to study Dark Matter-photon interactions},
author = {Ryan J. Wilkinson and Julien Lesgourgues and Celine Boehm},
journal= {arXiv preprint arXiv:1309.7588},
year = {2014}
}
Comments
9 pages, 5 figures. V2: References added, minor clarifications. V3: Matches version in JCAP