Discovery Potential of Future Electron-Positron Colliders for a 95 GeV Scalar

Abstract

The Large Electron Positron collider observed an indication for a new Higgs boson with a mass around 95\,GeV-100\,GeV in the process e+e- Z* ZS with S b b. The interest in this excess re-emerged with the di-photon signature at ≈\,95\,GeV at the Large Hadron Collider. In fact, a combined global significance of 3.4σ is obtained once WW and ττ signals are included in addition. In this article, we perform a feasibility study for discovering such a new scalar S at future electron-positron colliders using the recoil-mass method applied to e+ e- ZS with Z → μ+ μ- and S b b. For this, we employ a Deep Neural Network to enhance the separation between the Standard Model background and the signal, reducing the required integrated luminosity necessary for discovery by a factor of two to three. As a result, an SU(2)L singlet Higgs with a mass of ≈\,95\,GeV can be observed with more than 5σ significance at a 250\,GeV centre-of-mass energy collider with 5~ ab-1 integrated luminosity if it has a mixing angle of at least 0.1 with the Standard Model Higgs, which means that a discovery can be achieved within the whole 95\% confidence-level region preferred by Large Electron Positron excess. Furthermore, including more decay channels such as S ττ and Z e+e- further enhances the discovery potential of future e+e- accelerators, like CEPC, CLIC, FCC-ee and ILC.

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