Radiative Signature of New Scalar Boson Decays in the m γ Spectrum at the LHC

Abstract

We investigate the radiative decay S W+W-γ in the context of the multi-lepton anomalies and recent indications of a narrow scalar resonance near mS = 152 1~GeV in the γγ, Zγ, and W+W- channels at the Large Hadron Collider. These excesses arise in final states containing leptons, missing transverse momentum, and associated b-jets, and motivate a search for a corresponding localized excess in the invariant-mass spectrum of the dilepton--photon system, mγ, in events with associated b-jets. We use recent CMS measurements of the ttγ differential cross sections~CMS:2025zbe to study the mγ spectrum and perform a search for a scalar-resonance contribution. A localized excess is observed, compatible with the scalar-resonance hypothesis, with a global significance of 2.7σ at mS = 152~GeV. This result provides additional support for the hypothesis of a narrow resonance. The ratio σ(S W+W-γ)/σ(S W+W-) = (2.14 0.77)\% is extracted. This value is compatible with an enhanced radiative contribution that could arise in scenarios beyond the Standard Model.