Cosmological time evolution of the Higgs mass and gravitational waves

Abstract

We point out that gravitational wave detectors such as LISA have the potential of probing a cosmological time evolution of the Higgs boson self-coupling constant [Formula: see text] and thus the Higgs boson’s mass [Formula: see text]. The phase transition of the Standard Model could have been a first order one if the Higgs mass was below 72 GeV at a temperature [Formula: see text] GeV. Gravitational waves could thus have been produced during the electroweak phase transition. A discovery by LISA of a stochastic background of gravitational waves with a characteristic frequency [Formula: see text] Hz could be interpreted as a sign that the Higgs boson self-coupling constant was smaller in the past. This interpretation would be particularly tempting if the Large Hadron Collider did not discover any physics beyond the Standard Model by the time such waves are seen. The same mechanism could also account for baryogenesis.