Abstract

The $tthh$ production at colliders contain rich information on the nature of Higgs boson. In this article, we systematically studied its physics at High-Luminosity Large Hadron Collider (HL-LHC), using exclusive channels with multiple ($\geq 5$) $b$-jets and one lepton ($5b1\ell$), multiple ($\geq 5$) $b$-jets and opposite-sign di-lepton ($5b2\ell$), same-sign di-lepton (SS2$\ell$), multiple leptons (multi-$\ell$), and di-tau resonance ($\tau\tau$). The scenarios analyzed include: (1) the $tthh$ production in Standard Model; (2) the $tthh$ production mediated by anomalous cubic Higgs self-coupling and $tthh$ contact interaction; (3) heavy Higgs ($H$) production with $tt H \to tthh$; and (4) pair production of fermionic top partners ($T$) with $T T \to tthh$. To address the complication of event topologies and the mess of combinatorial backgrounds, a tool of Boosted-Decision-Tree was applied in the analyses. The $5b1\ell$ and SS2$\ell$ analyses define the two most promising channels, resulting in slightly different sensitivities. For non-resonant $tthh$ production, a combination of these exclusive analyses allows for its measurment in the SM with a statistical significance $\sim 0.9\sigma$ (with $S/B > 1 \%$), and may assist partially breaking the sensitivity degeneracy w.r.t. the cubic Higgs self-coupling, a difficulty usually thought to exist in gluon fusion di-Higgs analysis at HL-LHC. These sensitivities were also projected to future hadron colliders at 27 TeV and 100 TeV. For resonant $tthh$ productions, the heavy Higgs boson in type II Two-Higgs-Doublet-Model could be efficiently searched for between the mass thresholds $2 m_h < m_H < 2 m_t$ and even beyond that, for relatively small $\tan\beta$, while the fermionic top partners in composite Higgs models could be probed for up to $\sim 1.5$ TeV and $\sim 1.7$ TeV, for Br$(T\to th)=25\%$ and $50\%$, respectively.

Highlights

  • The tthh production at colliders contains rich information on the nature of Higgs boson

  • Together with gluon fusion, vector-boson-fusion (VBF) and vector boson association (VBA), the tthh production defines the set of main mechanisms for di-Higgs production in Standard Model (SM) (for discussions on their nextleading-order (NLO) cross sections at hadron colliders, see, e.g., [1])

  • The blue region represents the sensitivity reach of a reference analysis of gg → hh → bbγγ pursued by the ATLAS collaboration [9], which remains not excluded at high-luminosity Large Hadron Collider (HL-LHC)

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Summary

INTRODUCTION

The tthh production at colliders contains rich information on the nature of Higgs boson. Together with gluon fusion (gg → hh), vector-boson-fusion (VBF) and vector boson association (VBA), the tthh production defines the set of main mechanisms for di-Higgs production in Standard Model (SM) (for discussions on their nextleading-order (NLO) cross sections at hadron colliders, see, e.g., [1]) These di-Higgs productions can be applied to detect Higgs self-couplings and probe the nature of electroweak phase transition (EWPT) [2]. The channels with, e.g., same-sign dilepton and multiple leptons, were largely ignored, which could be valuable because of their relatively clean backgrounds Motivated by these considerations, in this article we will systematically analyze the sensitivities of measuring the tthh physics at HL-LHC, using the tool of BDT, in the following physics scenarios:.

Generation of signal and background events
11.8 Backgrounds of ditops
Selection rules
Boosted decision tree
The tthhðSMÞ production
Kinematics and sensitivities of κ and ct
Projected sensitivities at future hadron colliders
14 TeV 27 TeV 100 TeV
RESONANT tthh ANALYSIS
Fermionic top partner
Findings
CONCLUSION

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