Revisiting lepton-specific 2HDM in light of muon g-2 anomaly

Abstract

We examine the lepton-specific 2HDM as a solution of muon g-2 anomaly under various theoretical and experimental constraints, especially the direct search limits from the LHC and the requirement of a strong first-order phase transition in the early universe. We find that the muon g-2 anomaly can be explained in the region of 32 <β< 80, 10 GeV <mA< 65 GeV, 260 GeV <mH< 620 GeV and 180 GeV <mH< 620 GeV after imposing the joint constraints from the theory, the precision electroweak data, the 125 GeV Higgs data, the leptonic/semi-hadronic τ decays, the leptonic Z decays and Br(Bs μ+ μ-). The direct searches from the h AA channels can impose stringent upper limits on Br(h AA) and the multi-lepton event searches can sizably reduce the allowed region of mA and β (10 GeV <mA< 44 GeV and 32 <β< 60). Finally, we find that the model can produce a strong first-order phase transition in the region of 14 GeV <mA< 25 GeV, 310 GeV <mH< 355 GeV and 250 GeV <mH< 295 GeV, allowed by the explanation of the muon g-2 anomaly.