S. Kumar scite author profile

JINST 15 P05023A : Gas Electron Multiplier (GEM) technology, in particular triple-GEM, was selected for the upgrade of the CMS endcap muon system following several years of intense effort on R&D. The triple-GEM chambers (GE1/1) are being installed at station 1 during the second long shutdown with the goal of reducing the Level-1 muon trigger rate and improving the tracking performance in the harsh radiation environment foreseen in the future LHC operation [2]. A first installation of a demonstrator system started at the beginning of 2017: 10 triple-GEM detectors were installed in the CMS muon system with the aim of gaining operational experience and demonstrating the integration of the GE1/1 system into the trigger. In this context, a dedicated Detector Control System (DCS) has been developed, to control and monitor the detectors installed and integrating them into the CMS operation. This paper presents the slice test DCS, describing in detail the different parts of the system and their implementation.

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Quality control of mass-produced GEM detectors for the CMS GE1/1 muon upgrade

Abbas

Abbrescia

Abdalla

et al. 2022

Nuclear Instruments and Methods in Physics Research Section A:

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Photodetection Characterization of SiPM Technologies for their Application in Scintillator based Neutron Detectors

et al. 2018

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Small-angle neutron scattering (SANS) experiments have become one of the most important techniques in the investigation of the properties of material on the atomic scale. Until 2001, nearly exclusively 3 He-based detectors were used for neutron detection in these experiments, but due to the scarcity of 3 He and its steeply rising price, researchers started to look for suitable alternatives. Scintillation based solid state detectors appeared as a prominent alternative. Silicon photomultipliers (SiPM), having single photon resolution, lower bias voltages compared to photomultiplier tubes (PMT), insensitivity to magnetic fields, low cost, possibility of modular design and higher readout rates, have the potential of becoming a photon detector of choice in scintillator based neutron detectors.The major concerns for utilizing the SiPM technology in this kind of applications are the increase in their noise performance and the decrease in their photon detection efficiency (PDE) due to direct exposure to neutrons. Here, a detailed comparative analysis of the PDE performance in the range between UV and NIR parts of the spectra for three different SiPM technologies, before and after irradiation with cold neutrons, has been carried out. For this investigation, one digital and two analog SiPM arrays were irradiated with 5Å wavelength cold neutrons and up to a dose of 6×10 12 n/cm 2 at the KWS-1 instrument of the Heinz Maier-Leibnitz Zentrum (MLZ) in Garching, Germany.

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S. Kumar

The Physics of the B Factories

Triple-GEM discharge probability studies at CHARM: simulations and experimental results

Detector Control System for the GE1/1 slice test

Quality control of mass-produced GEM detectors for the CMS GE1/1 muon upgrade

Photodetection Characterization of SiPM Technologies for their Application in Scintillator based Neutron Detectors

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