Measurements of an AC-LGAD strip sensor with a 120 GeV proton beam

The development of detectors that provide high resolution in four dimensions has attracted wide-spread interest in the scientific community for several applications in high-energy physics, nuclear physics, medical imaging, mass spectroscopy as well as quantum information. LGAD silicon sensors with f...

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Bibliographic Details
Published in:Journal of instrumentation 2020-09, Vol.15 (9), p.P09038-P09038
Main Authors: Apresyan, A., Chen, W., D'Amen, G., Petrillo, K.F. Di, Giacomini, G., Heller, R.E., Lee, H., Moon, C.-S., Tricoli, A.
Format: Article
Language:English
Subjects:
Detectors
Dimensional measurement
Medical imaging
Nuclear physics
OTHER INSTRUMENTATION
particle tracking detectors
Proton beams
Quantum phenomena
Sensors
Si microstrip and pad detectors
Solid state detectors
Strip
timing detectors
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Summary:The development of detectors that provide high resolution in four dimensions has attracted wide-spread interest in the scientific community for several applications in high-energy physics, nuclear physics, medical imaging, mass spectroscopy as well as quantum information. LGAD silicon sensors with finely segmented AC-coupled electrodes can provide precise spatial and timing measurements of incident minimum ionizing particles. Such AC-coupled LGADs, also known as AC-LGADs, are therefore considered as candidates for future detectors to provide 4-dimensional measurements in a single sensing device with 100% fill factor. This article presents the first characterization of an AC-LGAD sensor with a proton beam of 120 GeV momentum at Fermilab. The sensor consists of strips with 80 μm width, fabricated at Brookhaven National Laboratory. The signal properties, efficiency, spatial, and time resolution are presented. The experimental results show that the time resolution of such an AC-LGAD is compatible to standard LGADs with similar gain, and that AC-LGADs can be segmented with fine pitches as standard strip or pixel detectors.
ISSN:1748-0221
1748-0221
DOI:10.1088/1748-0221/15/09/P09038