Probing Light Fermiophobic Higgs Boson via diphoton jets at the HL-LHC

Abstract

In this study, we explore the phenomenological signatures associated with a light fermiophobic Higgs boson, h f, within the type-I two-Higgs-doublet model at the HL-LHC. Our meticulous parameter scan illuminates an intriguing mass range for mh f, spanning [1,10]\; GeV. This mass range owes its viability to substantial parameter points, largely due to the inherent challenges of detecting the soft decay products of h f at contemporary high-energy colliders. Given that this light h f ensures Br(h fγγ) 1, Br(H h f W) 1, and MH 330\; GeV, we propose a golden discovery channel: pp h fH γγγγ \,l, where l includes e and μ. However, a significant obstacle arises as the two photons from the h f decay mostly merge into a single jet due to their proximity within R<0.4. This results in a final state characterized by two jets, rather than four isolated photons, thus intensifying the QCD backgrounds. To tackle this, we devise a strategy within Delphes to identify jets with two leading subparticles as photons, termed diphoton jets. Our thorough detector-level simulations across 18 benchmark points predominantly show signal significances exceeding the 5σ threshold at an integrated luminosity of 3\; ab-1. Furthermore, our approach facilitates accurate mass reconstructions for both mh f and MH. Notably, in the intricate scenarios with heavy charged Higgs bosons, our application of machine learning techniques provides a significant boost in significance.

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