LHC constraints on Gravitino Dark Matter

TL;DR

This paper analyzes LHC data to constrain supersymmetric models with gravitino dark matter, focusing on the relationship between gravitino mass, gluino mass, and reheating temperature, providing bounds relevant for cosmology.

Contribution

It presents a comprehensive scan of a 19+1 parameter SUSY model to derive new constraints on gravitino dark matter scenarios from LHC Run-2 data and future upgrades.

Findings

Stringent bounds on gravitino and gluino masses

Constraints on reheating temperature

Implications for cosmological models

Abstract

Gravitino Dark Matter represents a compelling scenario in Supersymmetry, which brings together a variety of data from cosmology and collider physics. We discuss the constraints obtained from the LHC on supersymmetric models with gravitino dark matter and neutralino NLSP, which is the case most difficult to disentangle at colliders from a neutralino LSP forming DM. The phenomenological SUSY model with 19+1 free parameters is adopted. Results are obtained from broad scans of the phase space of these uncorrelated parameters. The relation between gravitino mass, gluino mass and reheating temperature as well as the derived constraints on these parameters are discussed in detail. This relation offers a unique opportunity to place stringent bounds on the cosmological model, within the gravitino dark matter scenario, from the results of the LHC searches in Run-2 and the planned High-Luminosity upgrade.