Bio phenomenology at the LHC

Abstract

We study the LHC constraints on an R-symmetric SUSY model, where the neutrino masses are generated through higher dimensional operators involving the pseudo-Dirac bino, named bi. We consider a particle spectrum where the squarks are heavier than the lightest neutralino, which is a pure bi. The bi is produced through squark decays and it subsequently decays to a combination of jets and leptons, with or without missing energy, via its mixing with the Standard Model neutrinos. We recast the most recent LHC searches for jets+missing energy with s=13~TeV and L=36~ fb-1 of data to determine the constraints on the squark and bi masses in this model. We find that squarks as light as 350~GeV are allowed if the bi is lighter than 150~GeV and squarks heavier than 950~GeV are allowed for any bi mass. We also present forecasts for the LHC with s=13~TeV and L=300~ fb-1 and show that squarks up to 1150~GeV can be probed.