Revisiting the Electroweakino Sector of the Baryon Number Violating MSSM at the HL-LHC with Deep Neural Networks

Abstract

We study the projected sensitivity of direct electroweakino production pp 1 20 at the HL-LHC in a simplified framework with wino-like, mass degenerate 1 and 20, and a bino-like lightest neutralino 10, assuming R-parity violating~(RPV) through the baryon number violating λ 112uc dc dc and λ 113uc dc bc operators. We consider three channels with the λ 112uc dc dc RPV operator: Wh mediated 1\, + 2\,b + E\!\!\!/T, Wh mediated 1\, + (≥ 2\,j) + 2\, γ + E\!\!\!/T, and WZ mediated 3 + (≥ 2 j) + E\!\!\!/T. In each channel, we train benchmark-specific multi-layer perceptrons (MLPs), analogous to signal-region classifiers, on the four-momenta of the final state particles along with a small set of higher-level observables to distinguish the signal from the dominant SM backgrounds. We find that the HL-LHC will be able to probe winos up to 900~GeV, 780~GeV, and 880~GeV in the Wh mediated 1\, + 2\,b + E\!\!\!/T, Wh mediated 1\, + (≥ 2\,j) + 2\, γ + E\!\!\!/T, and WZ mediated 3 + (≥ 2 j) + E\!\!\!/T channels, respectively, for m_10 50~GeV, in the presence of λ 112uc dc dc couplings, at 2σ sensitivity. In case the λ 113uc dc bc operator is solely switched on, the projected sensitivity for winos reach up to 700~GeV for Wh mediated 1\, + (≥ 1\,b)\, + (≥ 1j)\, + 2\, γ + E\!\!\!/T and 850~GeV for the WZ mediated 3 + (≥ 1 b) + E\!\!\!/T channel.