Exploring Background Contributions in H Z γ Decay
Abstract
The rare decay H Zγ has been investigated by both the ATLAS and CMS Collaborations, with each reporting an excess in Run~2 in 2023 characterized by μ = 2.2 0.7. This anomaly was initially attributed to possible modifications of the HZγ vertex. However, because the H Zγ signal is reconstructed via the H γ channel, background effects -- particularly those from processes that mimic the same final state -- may have been underestimated. In this work, we re-examine these backgrounds in detail and propose that the observed excess could be explained by an additional BSM-induced contribution. We present both an effective field theory framework and a UV-complete model that provide the necessary rates and a consistent interpretation of the data. The proposed model reproduces the newest ATLAS result, μ = 1.3+0.6-0.5, obtained using a narrower dilepton invariant-mass window.
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