Abstract

The High Luminosity upgrade of the Large Hadron Collider (HL-LHC) at CERN aims to achieve unprecedented levels of instantaneous and integrated luminosities, approximately 5 × 1034 cm-2 s-1 and 3000 fb-1, respectively. It is anticipated that each bunch-crossing will result in an average of 140 to 200 collisions (pileup). The lead tungstate crystals and avalanche photodiodes (APDs) in the barrel region of the electromagnetic calorimeter (ECAL) of the Compact Muon Solenoid (CMS) will remain effective. However the readout and trigger electronics will undergo complete replacement to keep the current level of performance. A dual gain trans-impedance amplifier and an application-specific integrated circuit will be installed, providing two 160 MS/s analog-to-digital converter channels, gain selection, and data compression. The increase in noise within the APDs, due to radiation-induced dark current, will be alleviated by reducing the operating temperature of the ECAL. Additionally, the trigger primitive formation will be shifted away from the detector and handled by powerful and flexible field-programmable gate array processors housed on the back-end electronics cards.In this document, the complete ECAL barrel readout chain design and the current state of research and development for each individual component regarding the upgrade will be described. The outcomes of recent test beam campaigns conducted at the CERN SPS, exploiting electron beams with energies of up to 250 GeV, will also be summarized. Notably, measurements pertaining to the energy resolution performance of the latest prototypes of HL-LHC ECAL readout electronics will be presented.

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