English

Machine Learning Electroweakino Production

High Energy Physics - Phenomenology 2025-06-03 v3 High Energy Physics - Experiment

Abstract

The system of light electroweakinos and heavy squarks gives rise to one of the most challenging signatures to detect at the LHC. It consists of missing transverse energy recoiled against a few hadronic jets originating either from QCD radiation or squark decays. The analysis generally suffers from the large irreducible Z + jets (Zννˉ)(Z \to \nu \bar \nu) background. In this study, we explore Machine Learning (ML) methods for efficient signal/background discrimination. Our best attempt uses both reconstructed (jets, missing transverse energy, etc.) and low-level (particle-flow) objects. We find that the discrimination performance improves as the pT threshold for soft particles is lowered from 10 GeV to 1 GeV, at the expense of larger systematic uncertainty. In many cases, the ML method provides a factor two enhancement in S/(S+B)S/\sqrt{(S + B)} from a simple kinematical selection. The sensitivity on the squark-elecroweakino mass plane is derived with this method, assuming the Run-3 and HL-LHC luminosities. Moreover, we investigate the relations between input features and the network's classification performance to reveal the physical information used in the background/signal discrimination process.

Keywords

Cite

@article{arxiv.2411.00093,
  title  = {Machine Learning Electroweakino Production},
  author = {Rafał Masełek and Mihoko M. Nojiri and Kazuki Sakurai},
  journal= {arXiv preprint arXiv:2411.00093},
  year   = {2025}
}

Comments

37 pages, 32 figures

R2 v1 2026-06-28T19:43:28.528Z