Prospects of non-resonant di-Higgs searches and Higgs boson self-coupling measurement at the HE-LHC using machine learning techniques

Abstract

The prospects of observing the non-resonant di-Higgs production in the Standard Model at the proposed high energy upgrade of the LHC, viz. the HE-LHC~(s=27~ TeV and L = 15~ ab-1) is studied. Various di-Higgs final states are considered based on their cleanliness and signal yields. The search for the non-resonant double Higgs production at the HE-LHC is performed in the bbγγ, bbτ+τ-, bbWW*, WW*γγ, bbZZ* and bbμ+μ- channels. The signal-background discrimination is performed through multivariate analyses using the Boosted Decision Tree Decorrelated~(BDTD) algorithm in the~TMVA framework, the XGBoost toolkit and Deep Neural Network~(DNN). The variation in the kinematics of Higgs pair production as a function of the self-coupling of the Higgs boson, λh, is also studied. The ramifications of varying λh on the bbγγ, bbτ+τ- and bbWW* search analyses optimized for the SM hypothesis is also explored.