Bubble wall dynamics from nonequilibrium quantum field theory

Speaker: Matthias Carosi (ICTP-AP, Beijing)
Date/Time: Thursday 29 January 2026, 15:00
Room: Zoom

Titel: Bubble wall dynamics from nonequilibrium quantum field theory
Abstract:
First-order phase transitions in the early universe are a unique probe of physics beyond the Standard Model, with potential implications for electroweak baryogenesis, the formation of primordial black holes, magnetogenesis and the production of dark matter. Upcoming gravitational wave detectors may capture the imprint of such transitions, but to extract theoretical insights from these signals requires a precise understanding of the underlying dynamics.
In this talk, I show how the language of nonequilibrium quantum field theory, combined with the two-particle-irreducible effective action, provides a natural framework for describing the dynamics of a bubble after nucleation. After a brief introduction to the closed-time-path formalism, I derive the dynamical equations governing the bubble and the plasma, and identify all sources of friction for the bubble expansion. This framework unifies the existing approaches into a single, consistent description.