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Central-edge asymmetry as a probe of Higgs-top coupling in $t\bar{t}h$ production at LHC

arXiv:1701.00224 · doi:10.1016/j.physletb.2018.02.009

Abstract

The Higgs-top coupling plays a central role in the hierarchy problem and the vacuum stability of the Standard Model (SM). We propose a central-edge asymmetry ($A_{CE}$) to probe the CP violating Higgs-top coupling in dileptonic channel of $t\bar{t}h(\to b\bar{b})$ production at the LHC. We demonstrate that the CP-violating Higgs-top coupling can affect the central-edge asymmetry through distorting $Δy_{\ell^+\ell^-}$ distribution because of the contribution of new top charge asymmetric term. Since $Δy_{\ell^+\ell^-}$ distribution is frame-independent and has a good discrimination even in boosted regime, we use the jet substructure technique to enhance the observability of the dileptonic channel of $t\bar{t}h$ production. We find that (1) the significance of dileptonic channel of $t\bar{t}h$ production can reach $5σ$ for CP phase $ξ=0,π/4,π/2$ when the luminosity ${\cal L}=795,993,1276$ fb$^{-1}$ at 14 TeV LHC. (2) the central-edge asymmetry $A_{CE}$ show a good discrimination power of CP phase of $t\bar{t}h$ interaction, which are -40.26\%, -26.60\%, -9.47\% for $ξ=0$, $π/4$, $ π/2$ respectively and are hardly affected by the event selections. Besides, by performing the binned-$χ^2$ analysis of $Δy_{\ell^+\ell^-}$ distribution, we find that the scalar and pseudo-scalar interactions can be distinguished at 95\% C.L. level at 14 TeV HL-LHC.

minor changes, version accepted by PLB