Particle shells from relativistic bubble walls
Abstract
Relativistic bubble walls from cosmological phase transitions (PT) necessarily accumulate expanding shells of particles. We systematically characterize shell properties, and identify and calculate the processes that prevent them from free streaming: phase-space saturation effects, out-of-equilibrium and shell-shell and shell-bath interactions, and shell interactions with bubble walls. We find that shells do not free stream in scenarios widely studied in the literature, where standard predictions will need to be reevaluated, including those of bubble wall velocities, gravitational waves (GW) and particle production. Our results support the use of bulk-flow GW predictions in all regions where shells free stream, irrespectively of whether or not the latent heat is mostly converted in the scalar field gradient.
Cite
@article{arxiv.2403.05615,
title = {Particle shells from relativistic bubble walls},
author = {Iason Baldes and Maximilian Dichtl and Yann Gouttenoire and Filippo Sala},
journal= {arXiv preprint arXiv:2403.05615},
year = {2024}
}
Comments
73 pages, 18 figures and 8 tables including appendices and references, v2: shell-bath processes added