Novel GEM foil layout for high-rate particle environment in the CMS ME0 muon detector

Abstract

The triple-GEM technology has been selected to extend the acceptance of the CMS muon spectrometer to the region 2 . 4 < | η | < 2 . 8 , the so called ME0 project. The ME0 stations will be formed by stacks (six-layer stations) of triple-GEM chambers, which must operate in a harsh environment with expected background particle fluxes ranging between 3 and 150 kHz/cm 2 on the chamber surface. Both the maximum background rate and the large range in particle rate set a new challenge for particle detector technologies. The rate capability of triple-GEM detectors is limited by voltage drops on the chamber electrodes due to avalanche induced currents flowing through the resistive protection circuits. Studies with large-area triple-GEM detectors with moderate fluxes, show drops up to 40% of the nominal detector gas gain. The traditional GEM foils segmentation does not allow for feasible gain compensation acting on the HV settings. To overcome this strong limitation and to cope with the large variation in background flux, a new GEM foil design with electrode segmentation in the radial direction, instead of the “traditional” transverse segmentation has been introduced.