Muon Reconstruction Performance in Presence of Beam-Induced Background at Muon Collider

In the context of the simulation and reconstruction for the Muon Collider, based on CLIC’s ILCSoft software, the performances of the muon detector have been studied for muon beams collisions at a centre-of-mass energy of 1.5 TeV. The CLIC muon system foresees to instrument the iron yoke plates with layers of track sensitive chambers in order to enhance the muon identification. The glass Resistive Plate Chambers technology has been adopted both for barrel and endcap region with readout cells of 30x30 mm$^{2}$. Alternative MicroPattern Gaseous Detector technologies are under investigation. Simulated data of the particles reaching the muon chambers have been analyzed both for a single muon and a background sample to study the detector layout and performance. The results of a first preliminary study investigating the muon reconstruction efficiency, Beam-induced Background sensitivity, and background mitigation are presented.