Performance of a large size triple GEM detector at high particle rate for CBM Experiment at FAIR

Abstract

In CBM Experiment at FAIR, dimuons will be detected by a Muon Chamber (MUCH) consisting of segmented absorbers of varying widths and tracking chambers sandwiched between the absorber-pairs. In this fixed target heavy-ion collision experiment, operating at highest interaction rate of 10~MHz for Au+Au collision, after the first MUCH detector station in its inner radial ring will face a particle rate of 1~MHz/cm2. To operate at such a high particle density, GEM technology based detectors have been selected for the first two stations of MUCH. We have reported earlier the performance of several small-size GEM detector prototypes built at VECC for use in MUCH. In this work, we report on a large GEM chamber prototype tested with proton beam of momentum 2.36~GeV/c at COSY-J\"uelich Germany. The detector was read out using nXYTER ASIC operated in self-triggering mode. An efficiency higher than 96\% at VGEM~=~375.2~V was achieved. The variation of efficiency with the rate of incoming protons has been found to vary within 2\% when tested up to a maximum rate of 2.8~MHz/cm2. The gain was found to be stable at high particle rate with a maximum variation of ~9\%.