LHC Signatures of the Generic Georgi-Machacek Model

Abstract

Vector-boson fusion production of new Higgs bosons decaying into pairs of electroweak gauge bosons (W W, WZ and ZZ) is a smoking-gun signature of the Georgi-Machacek (GM) Model. Notably, ATLAS has observed a 3.3σ excess in W W at ≈ 450\,GeV and a 2.8σ excess in the WZ channel at ≈ 375\,GeV, while CMS reported weaker-than-expected limits at these masses. However, the canonical custodial-symmetric GM Model cannot accommodate these signals, as it predicts mass degeneracy among the new gauge-philic Higgs bosons. To overcome this obstacle, we consider a generalized version of the GM Model without the custodial SU(2)C symmetry in the scalar potential. In the limit of small mixing among the Higgs bosons, the W W and WZ excesses can be explained by the doubly and singly-charged Higgs bosons originating primarily from the Y=1 triplet, while respecting the bounds from ZZ searches. Furthermore, the neutral Higgs boson mostly contained in the Y=0 triplet can account for the excess at ≈ 152\,GeV in associated di-photon production, while being consistent with constraints from vacuum stability and the Standard Model Higgs signal strength measurements.

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