Two Higgs doublet dynamics at the electroweak phase transition: A Nonperturbative study
Sep, 200056 pages
Published in:
- Nucl.Phys.B 597 (2001) 23-69
e-Print:
- hep-lat/0009025 [hep-lat]
Report number:
- CERN-TH-2000-226,
- NORDITA-2000-80-HE
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Abstract:
Using a three-dimensional (3d) effective field theory and non-perturbative lattice simulations, we study the MSSM electroweak phase transition with two dynamical Higgs doublets. We first carry out a general analysis of spontaneous CP violation in 3d two Higgs doublet models, finding that this part of the parameter space is well separated from that corresponding to the physical MSSM. We then choose physical parameter values with explicit CP violation and a light right-handed stop, and determine the strength of the phase transition. We find a transition somewhat stronger than in 2-loop perturbation theory, leading to the conclusion that from the point of view of the non-equilibrium constraint, MSSM electroweak baryogenesis can be allowed even for a Higgs mass mH \approx 115 GeV. We also find that small values of the mass parameter mA (\lsim 120 GeV), which would relax the experimental constraint on mH, do not weaken the transition noticeably for a light enough stop. Finally we determine the properties of the phase boundary.Note:
- 56 pages, 16 figures; small clarifications added, concerning e.g. Higgs mass bounds; to appear in NPB
- lattice field theory: nonperturbative
- effective Lagrangian
- dimension: 3
- electroweak interaction
- supersymmetry
- critical phenomena
- Higgs particle: multiplet
- doublet: 2
- CP: violation
- squark: top
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