3 research outputs found
Baryogenesis in the Two-Higgs Doublet Model
We consider the generation of the baryon asymmetry in the two-Higgs doublet
model. Investigating the thermal potential in the presence of CP violation, as
relevant for baryogenesis, we find a strong first-order phase transition if the
extra Higgs states are heavier than about 300 GeV. The mass of the lightest
Higgs can be as large as about 200 GeV. We compute the bubble wall properties,
including the profile of the relative complex phase between the two Higgs vevs.
The baryon asymmetry is generated by top transport, which we treat in the WKB
approximation. We find a baryon asymmetry consistent with observations. The
neutron electric dipole moment is predicted to be larger than about 10^{-27}ecm
and can reach the current experimental bound. Low values of tan\beta are
favored.Comment: 25 pages, 7 figure
The Baryon asymmetry in the Standard Model with a low cut-off
We study the generation of the baryon asymmetry in a variant of the standard
model, where the Higgs field is stabilized by a dimension-six interaction.
Analyzing the one-loop potential, we find a strong first order electroweak
phase transition for Higgs masses up to at least 170 GeV. Dimension-six
operators induce also new sources of CP violation. We compute the baryon
asymmetry in the WKB approximation. Novel source terms in the transport
equations enhance the generated baryon asymmetry. For a wide range of
parameters the model predicts a baryon asymmetry close to the observed value.Comment: 22 pages, latex, 6 figure