Higgs boson self-coupling constraints from single Higgs, double Higgs and Electroweak measurements

Abstract

We set constraints on the trilinear Higgs boson self-coupling, λ3, by combining the information coming from the W mass and leptonic effective Weinberg angle, electroweak precision observables, with the single Higgs boson analyses targeting the γ γ,\, ZZ*,\, WW*, \,τ+ τ- and b b decay channels and the double Higgs boson analyses in the bbbb, \, bbb τ+ τ- and bbb γ γ decay channels, performed by the ATLAS collaboration. With the assumption that the new physics affects only the Higgs potential, values outside the interval -1.8\, λ3 SM < λ3 < 9.2 \, λ3 SM are excluded at 95\% confidence level. With respect to similar analyses that do not include the information coming from the electroweak precision observables our analysis shows a stronger constraint on both positive and negative values of λ3.