Observable CMB B-modes from Cosmological Phase Transitions
Abstract
A B-mode polarization signal in the cosmic microwave background (CMB) is widely regarded as smoking gun evidence for gravitational waves produced during inflation. Here, we demonstrate that tensor perturbations sourced during non-inflationary epochs can yield non-negligible B-mode signals, which can in principle complicate the interpretation of future observational data. As a case study, we consider tensor perturbations sourced in the bubble collision stage of a first-order cosmological phase transition occurring in a secluded dark sector. Although phase transitions arise from causal sub-horizon physics, they nevertheless exhibit a white noise power spectrum on super-horizon scales. Power is suppressed on the large scales relevant for CMB B-mode polarization, but it is not necessarily negligible. We show that for appropriately chosen phase transition parameters, the maximal B-mode amplitude can compete with inflationary predictions that can be tested with current and future experiments. These scenarios can be differentiated by performing measurements on multiple angular scales, since the phase transition signal predicts peak power on smaller scales.
Cite
@article{arxiv.2410.23348,
title = {Observable CMB B-modes from Cosmological Phase Transitions},
author = {Kylar Greene and Aurora Ireland and Gordan Krnjaic and Yuhsin Tsai},
journal= {arXiv preprint arXiv:2410.23348},
year = {2026}
}
Comments
14 pages, 6 figures; v3: matches published version