New test beam results of 3D and pad detectors constructed with poly-crystalline CVD diamond
Articolo
Data di Pubblicazione:
2020
Abstract:
Chemical Vapour Deposition (CVD) diamond is being considered as a material for particle detectors in a harsh radiation environment. This article presents beam test results of 3D pixel detectors fabricated with poly-crystalline CVD diamonds. The cells of the devices had a size of 50µm×50µm with columns 2.6µm in diameter. The cells were ganged in a 3×2 and 5×1 pattern to match the layouts of the pixel read-out electronics currently used in the CMS and ATLAS experiments at the Large Hadron Collider, respectively. In beam tests, using tracks reconstructed with a high precision tracking telescope, a tracking efficiency of 99.3% was achieved. The efficiency of both devices plateaus at a bias voltage of 30V. Also irradiated poly-crystalline CVD diamond pad detectors were investigated. In high rate beam tests with particle fluxes up to 20MHz/cm2 and irradiations up to 8 ⋅ 1015n/cm2 it was shown that the pulse height of irradiated poly-crystalline CVD diamonds does not depend on flux to the O2%.
Tipologia CRIS:
03A-Articolo su Rivista
Keywords:
3D diamond detectors; 3D sensors; Chemical Vapour Deposition; Diamond detectors; Particle flux; pCVD diamond; Radiation tolerant detectors
Elenco autori:
Reichmann M.; Alexopoulos A.; Artuso M.; Bachmair F.; Bani L.; Bartosik M.; Beacham J.; Beck H.; Bellini V.; Belyaev V.; Bentele B.; Bes A.; Brom J.-M.; Bruzzi M.; Chiodini G.; Chren D.; Cindro V.; Claus G.; Collot J.; Cumalat J.; Dabrowski A.; D'Alessandro R.; Dauvergne D.; Boer W.D.; Dick S.; Dorfer C.; Dunser M.; Eigen G.; Eremin V.; Forcolin G.T.; Forneris J.; Gallin-Martel L.; Gallin-Martel M.L.; Gan K.K.; Gastal M.; Giroletti C.; Goffe M.; Goldstein J.; Golubev A.; Gorisek A.; Grigoriev E.; Grosse-Knetter J.; Grummer A.; Gui B.; Guthoff M.; Hiti B.; Hits D.; Hoeferkamp M.; Hofmann T.; Hosselet J.; Hostachy J.-Y.; Hugging F.; Hutton C.; Janssen J.; Kagan H.; Kanxheri K.; Kasieczka G.; Kass R.; Kis M.; Kramberger G.; Kuleshov S.; Lacoste A.; Lagomarsino S.; Giudice A.L.; Paz I.L.; Lukosi E.; Maazouzi C.; Mandic I.; Marino A.; Mathieu C.; Menichelli M.; Mikuz M.; Morozzi A.; Moss J.; Mountain R.; Oh A.; Olivero P.; Passeri D.; Pernegger H.; Perrino R.; Piccini M.; Picollo F.; Pomorski M.; Potenza R.; Quadt A.; Rarbi F.; Re A.; Roe S.; Becerra D.A.S.; Scaringella M.; Schmidt C.J.; Schioppa E.; Schnetzer S.; Sciortino S.; Scorzoni A.; Seidel S.; Servoli L.; Smith D.S.; Sopko B.; Sopko V.; Spagnolo S.; Spanier S.; Stenson K.; Stone R.; Stugo B.; Sutera C.; Tannenwald B.; Traeger M.; Trischuk W.; Tromson D.; Truccato M.; Tuve C.; Velthuis J.; Venturi N.; Wagner S.; Wallny R.; Wang J.C.; Weingarten J.; Weiss C.; Wermes N.; Yamouni M.; Zalieckas M.; Zavrtanik M.; Salter P.S.; Chmeissani M.; Grinstein S.; Furelos D.V.
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