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Comparison of different sensor thicknesses and substrate materials for the monolithic small collection-electrode technology demonstrator CLICTD
Small collection-electrode monolithic CMOS sensors profit from a high signal-to-noise ratio and a small power consumption, but have a limited active sensor volume due to the fabrication process based on thin high-resistivity epitaxial layers. In this paper, the active sensor depth is investigated in...
| Autores principales: | , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2022
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1016/j.nima.2022.167413 http://cds.cern.ch/record/2826909 |
| _version_ | 1780973867727060992 |
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| author | Dort, Katharina Ballabriga, Rafael Braach, Justus Buschmann, Eric Campbell, Michael Dannheim, Dominik Huth, Lennart Kremastiotis, Iraklis Kröger, Jens Linssen, Lucie Munker, Magdalena Snoeys, Walter Spannagel, Simon Švihra, Peter Vanat, Tomas |
| author_facet | Dort, Katharina Ballabriga, Rafael Braach, Justus Buschmann, Eric Campbell, Michael Dannheim, Dominik Huth, Lennart Kremastiotis, Iraklis Kröger, Jens Linssen, Lucie Munker, Magdalena Snoeys, Walter Spannagel, Simon Švihra, Peter Vanat, Tomas |
| author_sort | Dort, Katharina |
| collection | CERN |
| description | Small collection-electrode monolithic CMOS sensors profit from a high signal-to-noise ratio and a small power consumption, but have a limited active sensor volume due to the fabrication process based on thin high-resistivity epitaxial layers. In this paper, the active sensor depth is investigated in the monolithic small collection-electrode technology demonstrator CLICTD. Charged particle beams are used to study the charge-collection properties and the performance of devices with different thicknesses both for perpendicular and inclined particle incidence. In CMOS sensors with a high-resistivity Czochralski substrate, the depth of the sensitive volume is found to increase by a factor two in comparison with standard epitaxial material and leads to significant improvements in the hit-detection efficiency and the spatial and time resolution. |
| id | cern-2826909 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2022 |
| record_format | invenio |
| spelling | cern-28269092023-09-14T05:48:12Zdoi:10.1016/j.nima.2022.167413http://cds.cern.ch/record/2826909engDort, KatharinaBallabriga, RafaelBraach, JustusBuschmann, EricCampbell, MichaelDannheim, DominikHuth, LennartKremastiotis, IraklisKröger, JensLinssen, LucieMunker, MagdalenaSnoeys, WalterSpannagel, SimonŠvihra, PeterVanat, TomasComparison of different sensor thicknesses and substrate materials for the monolithic small collection-electrode technology demonstrator CLICTDphysics.ins-detDetectors and Experimental TechniquesSmall collection-electrode monolithic CMOS sensors profit from a high signal-to-noise ratio and a small power consumption, but have a limited active sensor volume due to the fabrication process based on thin high-resistivity epitaxial layers. In this paper, the active sensor depth is investigated in the monolithic small collection-electrode technology demonstrator CLICTD. Charged particle beams are used to study the charge-collection properties and the performance of devices with different thicknesses both for perpendicular and inclined particle incidence. In CMOS sensors with a high-resistivity Czochralski substrate, the depth of the sensitive volume is found to increase by a factor two in comparison with standard epitaxial material and leads to significant improvements in the hit-detection efficiency and the spatial and time resolution.Small collection-electrode monolithic CMOS sensors profit from a high signal-to-noise ratio and a small power consumption, but have a limited active sensor volume due to the fabrication process based on thin high-resistivity epitaxial layers. In this paper, the active sensor depth is investigated in the monolithic small collection-electrode technology demonstrator CLICTD. Charged particle beams are used to study the charge-collection properties and the performance of devices with different thicknesses both for perpendicular and inclined particle incidence. In CMOS sensors with a high-resistivity Czochralski substrate, the depth of the sensitive volume is found to increase by a factor two in comparison with standard epitaxial material and leads to significant improvements in the hit-detection efficiency and the spatial and time resolution.arXiv:2204.10569oai:cds.cern.ch:28269092022-04-22 |
| spellingShingle | physics.ins-det Detectors and Experimental Techniques Dort, Katharina Ballabriga, Rafael Braach, Justus Buschmann, Eric Campbell, Michael Dannheim, Dominik Huth, Lennart Kremastiotis, Iraklis Kröger, Jens Linssen, Lucie Munker, Magdalena Snoeys, Walter Spannagel, Simon Švihra, Peter Vanat, Tomas Comparison of different sensor thicknesses and substrate materials for the monolithic small collection-electrode technology demonstrator CLICTD |
| title | Comparison of different sensor thicknesses and substrate materials for the monolithic small collection-electrode technology demonstrator CLICTD |
| title_full | Comparison of different sensor thicknesses and substrate materials for the monolithic small collection-electrode technology demonstrator CLICTD |
| title_fullStr | Comparison of different sensor thicknesses and substrate materials for the monolithic small collection-electrode technology demonstrator CLICTD |
| title_full_unstemmed | Comparison of different sensor thicknesses and substrate materials for the monolithic small collection-electrode technology demonstrator CLICTD |
| title_short | Comparison of different sensor thicknesses and substrate materials for the monolithic small collection-electrode technology demonstrator CLICTD |
| title_sort | comparison of different sensor thicknesses and substrate materials for the monolithic small collection-electrode technology demonstrator clictd |
| topic | physics.ins-det Detectors and Experimental Techniques |
| url | https://dx.doi.org/10.1016/j.nima.2022.167413 http://cds.cern.ch/record/2826909 |
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