Stau pairs from natural SUSY at high luminosity LHC

Abstract

Natural supersymmetry (SUSY) with light higgsinos is perhaps the most plausible of all weak scale SUSY models while a variety of motivations point to (right) tau sleptons as the lightest of all the sleptons. We examine a SUSY model line with rather light right-staus embedded within natural SUSY. For light stau1 of a few hundred GeV, then the decays stau1 -> τ1,20 and τ1- occur at comparable rates where the (higgsino-like) 1 and 20 release only small visible energy: in this case, the expected τ+τ- + signature is diminished from usual expectations due to the presence of the nearly invisible decay mode 1 -> τ1-. However, once m_1> ~m(bino), then decays to binos such as 1 -> τ30 open up where 30 decays to higgsinos plus W, Z0 and h at comparable rates. For these heavier staus, then stau pair production gives rise to diboson+ events which may contain 0, 1 or 2 additional hard τ leptons. From these considerations, we examine the potential for future discovery of tau-slepton pair production at high-luminosity LHC. While we do not find a 5σ HL-LHC discovery reach for 3000 fb-1, we do find a 95\% CL exclusion reach, ranging between m_1:100-450 GeV for m_10~ 100 GeV. This latter reach disappears for m_10>~ 200 GeV.