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Diamond detector technology: status and perspectives

Harris Kagan 1 A. Alexopoulos 2 M. Artuso 3 F. Bachmair 4 L. Bäni 4 M. Bartosik 2 J. Beacham 1 H.P. Beck 5 V. Bellini, 6 V. Belyaev 7 B. Bentele 8 E. Berdermann 9 Philippe Bergonzo 10 A. Bes 11 J-M. Brom 12 M. Bruzzi 13 M. Cerv 2 G. Chiodini 14 D. Chren 15 V. Cindro 16 G. Claus 12 J. Collot 11 J. Cumalat 8 A. Dabrowski 2 R. d'Alessandro 13 W. de Boer 17 B. Dehning 2 C. Dorfer 4 M. Dunser 2 V. Eremin 18 R. Eusebi 19 G. Forcolin 20 J. Forneris 21 H. Frais-Kölbl 22 K.K. Gan 1 M. Gastal 2 C. Giroletti 23 M. Goffe 12 J. Goldstein 23 A. Golubev 24 A. Gorišek 16 E. Grigoriev 24 J. Grosse-Knetter 5 A. Grummer 25 B. Gui 1 M. Guthoff 2 I. Haughton 20 B. Hiti 16 D. Hits 4 M. Hoeferkamp 25 T. Hofmann 2 J. Hosslet 12 J-Y. Hostachy 11 F. Hügging 26 C. Hutton 23 H. Jansen 2 J. Janssen 26 K. Kanxheri 27 G. Kasieczka 4 R. Kass 1 F. Kassel 17 M. Kis 9 G. Kramberger 16 S. Kuleshov 28 A. Lacoste 11 S. Lagomarsino 13 A. Lo Giudice 21 E. Lukosi 29 C. Maazouzi 12 I. Mandic 16 C. Mathieu 12 N. Mcfadden 25 M. Menichelli 27 M. Mikuž 16 A. Morozzi 27 J. Moss 1 R. Mountain 3 S. Murphy 20 M. Muškinja 16 A. Oh 20 P. Oliviero 21 D. Passeri 27 H. Pernegger 2 R. Perrino 14 F. Picollo 21 Michal Pomorski 10 R. Potenza 6 A. Quadt 5 A. Re 21 M. Reichmann 4 G. Riley 29 S. Roe 2 D. Sanz 4 M. Scaringella 13 D. Schaefer 2 C.J. Schmidt 9 S. Schnetzer 30 T. Schreiner 31 S. Sciortino 13 A. Scorzoni 27 S. Seidel 25 L. Servoli 27 B. Sopko 15 V. Sopko 15 S. Spagnolo 14 S. Spanier 29 K. Stenson 8 R. Stone 30 C. Sutera 6 Aaron Taylor 25 M. Traeger 9 Dominique Tromson 10 W. Trischuk 32 C. Tuve 6 L. Uplegger 33 J. Velthuis 23 N. Venturi 32 E. Vittone 21 Stephen Wagner 8 R. Wallny 4 J.C. Wang 3 J. Weingarten 5 C. Weiss 2 T. Wengler 2 N. Wermes 26 M. Yamouni 11 M. Zavrtanik 16
10 LCD-LIST - Laboratoire Capteurs Diamant
DM2I - Département Métrologie Instrumentation & Information : DRT/LIST/DM2I
Abstract : The status of material development of polycrystalline chemical vapor deposition (CVD) diamond is presented. We also present beam test results on the independence of signal size on incident particle rate in charged particle detectors based on un-irradiated and irradiated polycrystalline CVD diamond over a range of particle fluxes from 2 kHz/cm2 to 10 MHz/cm2. The pulse height of the sensors was measured with readout electronics with a peaking time of 6 ns. In addition the first beam test results from 3D detectors made with poly-crystalline CVD diamond are presented. Finally the first analysis of LHC data from the ATLAS Diamond Beam Monitor (DBM) which is based on pixelated polycrystalline CVD diamond sensors bump-bonded to pixel readout electronics is shown.
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Harris Kagan, A. Alexopoulos, M. Artuso, F. Bachmair, L. Bäni, et al.. Diamond detector technology: status and perspectives. 25th International Workshop on Vertex Detectors (VERTEX 2016), Sep 2016, La Biodola, Isola d’Elba, Italy. pp.027, ⟨10.22323/1.287.0027⟩. ⟨in2p3-01573935⟩

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