The CMS hadronic calorimeter employs a plastic-scintillator-based endcap detector. In early 2017, a 20° wedge of the endcap was upgraded with silicon photomultipliers (SiPMs) and readout electronics based on the QIE11 digitizer. Based on the excellent experience with this 20° pilot system in 2017, the entire endcap detector was upgraded with SiPMs in early 2018. We report on the first ever operation of SiPMs in a high-rate collider detector. We compare SiPM performance to that of the previous hybrid photodiode / QIE8-based readout and describe how the factor three improvement in photon-detection efficiency, increased longitudinal segmentation, and improved response stability allow for mitigation of scintillator radiation damage and simplified calibration. We report in situ measurements of radiation-induced SiPM dark current. Overall, we show that the upgraded SiPM-based system brings more than 50% improvement in radiation-induced response degradation.

De Guio, F. (2019). First results from the CMS SiPM-based hadronic endcap calorimeter. In 18th International Conference on Calorimetry in Particle Physics, CALOR 2018. Institute of Physics Publishing [10.1088/1742-6596/1162/1/012009].

First results from the CMS SiPM-based hadronic endcap calorimeter

De Guio F.
2019

Abstract

The CMS hadronic calorimeter employs a plastic-scintillator-based endcap detector. In early 2017, a 20° wedge of the endcap was upgraded with silicon photomultipliers (SiPMs) and readout electronics based on the QIE11 digitizer. Based on the excellent experience with this 20° pilot system in 2017, the entire endcap detector was upgraded with SiPMs in early 2018. We report on the first ever operation of SiPMs in a high-rate collider detector. We compare SiPM performance to that of the previous hybrid photodiode / QIE8-based readout and describe how the factor three improvement in photon-detection efficiency, increased longitudinal segmentation, and improved response stability allow for mitigation of scintillator radiation damage and simplified calibration. We report in situ measurements of radiation-induced SiPM dark current. Overall, we show that the upgraded SiPM-based system brings more than 50% improvement in radiation-induced response degradation.
paper
Calorimetry; Colliding beam accelerators; Damage detection; Radiation damage; Scintillation counters;
English
18th International Conference on Calorimetry in Particle Physics, CALOR 2018 - 21 May 2018through 25 May 2018
2018
18th International Conference on Calorimetry in Particle Physics, CALOR 2018
2019
1162
1
012009
none
De Guio, F. (2019). First results from the CMS SiPM-based hadronic endcap calorimeter. In 18th International Conference on Calorimetry in Particle Physics, CALOR 2018. Institute of Physics Publishing [10.1088/1742-6596/1162/1/012009].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/477683
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