Bubble Wall Velocity at Strong Coupling
Abstract
Using the holographic correspondence as a tool, we determine the steady-state velocity of expanding vacuum bubbles nucleated within chiral finite temperature first-order phase transitions occurring in strongly-coupled large QCD-like models. We provide general formulae for the friction force exerted by the plasma on the bubbles and for the steady-state velocity. In the top-down holographic description, the phase transitions are related to changes in the embedding of - flavor branes probing the black hole background sourced by a stack of -branes. We first consider the Witten-Sakai-Sugimoto -- setup, compute the friction force and deduce the equilibrium velocity. Then we extend our analysis to more general setups and to different dimensions. Finally, we briefly compare our results, obtained within a fully non-perturbative framework, to other estimates of the bubble velocity in the literature.
Keywords
Cite
@article{arxiv.2104.12817,
title = {Bubble Wall Velocity at Strong Coupling},
author = {Francesco Bigazzi and Alessio Caddeo and Tommaso Canneti and Aldo L. Cotrone},
journal= {arXiv preprint arXiv:2104.12817},
year = {2021}
}
Comments
LaTeX, 38 pages, 7 figures. V3: comments and citation added