Abstract
The search for long-lived particles (LLP) is an exciting physics opportunity in the upcoming runs of the Large Hadron Collider. In this paper, we focus on a new search strategy of using the High Granularity Calorimeter (HGCAL), part of the upgrade of the CMS detector, in such searches. In particular, we demonstrate that the high granularity of the calorimeter allows us to see “shower tracks” in the calorimeter, and can play a crucial role in identifying the signal and suppressing the background. We study the potential reach of the HGCAL using a signal model in which the Standard Model Higgs boson decays into a pair of LLPs, h → XX. After carefully estimating the Standard Model QCD and the misreconstructed fake-track backgrounds, we give the projected reach for both an existing vector boson fusion trigger and a novel displaced-track-based trigger. Our results show that the best reach for the Higgs decay branching ratio, BR(h → XX), in the vector boson fusion channel is about mathcal{O} (10−4) with lifetime cτX ∼ 0.1–1 meters, while for the gluon gluon fusion channel it is about mathcal{O} (10−5–10−6) for similar lifetimes. For longer lifetime cτX ∼ 103 meters, our search could probe BR(h → XX) down to a few ×10−4(10−2) in the gluon gluon fusion (vector boson fusion) channels, respectively. In comparison with these previous searches, our new search shows enhanced sensitivity in complementary regions of the LLP parameter space. We also comment on many improvements can be implemented to further improve our proposed search.
Highlights
ATLAS-Low ET gluon-gluon fusion (ggF) Result (X → bb) consists of a sampling calorimeter with silicon and scintillators as active material, including both the electromagnetic and the hadronic sections with unprecedented fine segmentation
We focus on a new search strategy of using the High Granularity Calorimeter (HGCAL), part of the upgrade of the CMS detector, in such searches
We study the potential reach of the HGCAL using a signal model in which the Standard Model Higgs boson decays into a pair of long-lived particles (LLP), h → XX
Summary
To demonstrate the potential of our proposed search, we use a signal model in which the LLP couples to the SM through the Higgs portal. For mX < mh/2, the LLP will be produced through the Higgs boson decay h → XX. We assume X is a neutral and meta-stable scalar which will further decay via X → ̄bb. The free parameters in this simplified model are mass mX , lifetime cτX , and the decay branching ratio BR(h → XX). We consider two Higgs production channels, namely, the VBF production and ggF production, shown in figure 2. The VBF channel is motivated by the possibility of using an existing VBF trigger that does not rely on the properties of the LLP. In the ggF channel, we will explore the physics potential of using displaced track triggers after LHC Phase-2 upgrades, e.g., ref. We do not use the tagging information of whether the jets are initiated by heavy or light flavor quarks.
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