Enhanced Z boson decays as a new probe of first-order electroweak phase transition at future lepton colliders

We study phenomenological consequences of the strong first-order electroweak phase transition in an extension of the standard model with an inert doublet and vectorlike leptons motivated by the muon g−2 anomaly and dark matter. We find that a condition for the strong first-order electroweak phase transition inevitably induces a large logarithmic enhancement in Z boson decays, which relegates the explanation of the anomalous muon g−2 at below 2σ level. Our analysis shows that future lepton collider experiments, especially the Giga-Z at the International Linear Collider and Tera-Z at the Circular Electron Positron Collider as well as Future Circular Collider have great capability to explore the nature of the electroweak phase transition, which is complementary to conventional approaches via measurements of the triple Higgs boson coupling and gravitational waves.