Prospects for Cosmological Collider Physics
Abstract
It is generally expected that heavy fields are present during inflation, which can leave their imprint in late-time cosmological observables. The main signature of these fields is a small amount of distinctly shaped non-Gaussianity, which if detected, would provide a wealth of information about the particle spectrum of the inflationary Universe. Here we investigate to what extent these signatures can be detected or constrained using futuristic 21-cm surveys. We construct model-independent templates that extract the squeezed-limit behavior of the bispectrum, and examine their overlap with standard inflationary shapes and secondary non-Gaussianities. We then use these templates to forecast detection thresholds for different masses and couplings using a 3D reconstruction of modes during the dark ages (). We consider interactions of several broad classes of models and quantify their detectability as a function of the baseline of a dark ages interferometer. Our analysis shows that there exists the tantalizing possibility of discovering new particles with different masses and interactions with future 21-cm surveys.
Cite
@article{arxiv.1610.06559,
title = {Prospects for Cosmological Collider Physics},
author = {P. Daniel Meerburg and Moritz Münchmeyer and Julian B. Muñoz and Xingang Chen},
journal= {arXiv preprint arXiv:1610.06559},
year = {2017}
}
Comments
19 pages, 12 figures, minor improvements, references, typos