Conveners
System Design, Description and Operation
- Alex Kluge (CERN)
- Giovanna Lehmann Miotto (CERN)
System Design, Description and Operation
- Giovanna Lehmann Miotto (CERN)
- Hucheng Chen (Brookhaven National Laboratory (US))
System Design, Description and Operation
- Johan Alme (University of Bergen (NO))
- Giovanna Lehmann Miotto (CERN)
System Design, Description and Operation
- Alex Kluge (CERN)
- Johan Alme (University of Bergen (NO))
For the upcoming high-luminosity LHC, the endcap calorimeters of the CMS experiment will be replaced by the high-granularity calorimeter (HGCAL), a sampling calorimeter using both silicon and scintillator as active materials in different regions depending on the radiation dose. This contribution describes the integration details of the scintillator-based front-end into the DAQ readout chain of...
The contribution will concern the analysis of data provided by Gas Electron Multiplier (GEM) detectors already installed in the Compact Muon Solenoid (CMS) experiment. We will focus on the correlations among the baseline current observed in the High Voltage (HV) system, the background radiation, and the Large Hadron Collider (LHC) beam luminosity. Additionally, an update on the discharge rates...
We present the running experience of GE1/1, a new muon tracking and triggering station made of Triple-GEM detectors installed in the most forward region of the CMS muon spectrometer. GE1/1 records data since 2022. Each of the 144 detectors has 24 VFAT3, 3 GBTx, 3 VTRx, 2 VTTx and a Virtex-6 FPGA. All powered by 10 FEAST DCDC converters. We will present the GE1/1 electronics performance over...
DAMIC-M is an experiment that searches for low-mass dark matter particles through their interactions with silicon nuclei or electrons in the bulk of charge-coupled devices (CCDs).
The experiment has developed a new electronics which allows it to read skipper CCDs with a single-ionization charge resolution. An Acquisition and Control Module board (ACM) drives the multiple non-destructive...
The harsh environment of the High-Luminosity Phase of LHC will force the CMS experiment to replace the present pixel detector with a new Inner Tracker implementing 65 nm CMOS read-out chips (CROC). The modules, i.e. the Inner Tracker subunits, are powered in series and read-out through a sophisticated opto-electrical chain. Full-scale systems are realized and tested for validation and...
For the high-luminosity upgrade of the ATLAS Inner Tracking detector, a new pixel detector will be installed to increase bandwidth and to cope with higher radiation, among other challenges. In this contribution, the design aspects and qualification of the data transmission from pixel modules to optical readout are presented. A focus is put on the data cable bundles and their performance for...
The China Spallation Neutron Source (CSNS) is undergoing an upgrade to CSNS-II, increasing its power to 500 kW. This talk summarizes the readout electronics for the 10 neutron instruments currently in operation or commissioning at CSNS, discussing challenges, solutions, and glitches encountered. We also present the development and testing of low-power readout electronics for 3He PSD arrays and...
The SiSMUV project aims to develop a compact modular UV detector based on SiPMs for use in space telescopes, targeting the study of fluorescence and Cherenkov signals produced by Ultra-High Energy Cosmic Rays (UHECRs). SiSMUV has the objective of incorporating into a monolithic block, state-of-the-art sensors and low-power read-out electronics, creating a complete end-to-end system, which can...
The Circular Electron Positron Collider (CEPC) drift chamber requires high-performance readout electronics for accurate dN/dx measurement and particle identification (PID) using cluster counting techniques. The prototype readout electronics consists of high-speed op-amp based fast current amplifiers, 1.3 Gsps ADCs, and FPGAs for data acquisition and buffering. The system aims to acquire...
We developed a prototype of muon beam monitor for the COMET experiment. The detector consists of SiC PN-diodes and dedicated readout electronics. By tailing the 256 sensors in a matrix, the beam parameters extracted from this monitor are utilized for the essential background estimation. The electronics is designed in 65 nm CMOS, including 16 channels analog processor, ADC, PLL, and CML...
