Searching for sbottom LSP at the LHC

TL;DR

This paper investigates the detection prospects of a right sbottom LSP at the LHC within the $ u$SSM framework, analyzing prompt and displaced decays and comparing with current experimental searches.

Contribution

It provides the first detailed analysis of right sbottom LSP signals in the $ u$SSM, including decay length predictions and comparison with ATLAS and CMS data.

Findings

Lower mass limit for right sbottom LSP is about 1041 GeV.

Maximum decay length predicted is approximately 3.5 mm.

Constraints from neutrino and Higgs data shape the parameter space.

Abstract

Assuming that the sbottom is the lightest supersymmetric particle (LSP), we carry out an analysis of the relevant signals expected at the LHC. The discussion is established in the framework of the $\mu\nu$SSM, where the presence of $R$-parity violating couplings involving right-handed neutrinos solves simultaneously the $\mu$-problem and the accommodation of neutrino masses and mixing angles. The sbottoms are pair produced at the LHC, decaying to a lepton and a top quark or a neutrino and a bottom quark. The decays can be prompt or displaced, depending on the regions of the parameter space of the model. We focus the analysis on the right sbottom LSP, since the left sbottom is typically heavier than the left stop because of the D-term contribution. We compare the predictions of this scenario with ATLAS and CMS searches for prompt and long-lived particles. To analyze the parameter space we sample the $\mu\nu$SSM for a right sbottom LSP, paying special attention to reproduce the current experimental data on neutrino and Higgs physics, as well as flavor observables. For displaced (prompt) decays, our results translate into lower limits on the mass of the right sbottom LSP of about $1041$ GeV ($1070$ GeV). The largest possible value found for the decay length is about $3.5$ mm.