Diamond detectors for high energy physics experiments

L. Bäni, A. Alexopoulos, Marina Artuso, F. Bachmair, M. Bartosik, J. Beacham, H. Beck, V. Bellini, V. Belyaev, B. Bentele, E. Berdermann, P. Bergonzo, A. Bes, J. M. Brom, M. Bruzzi, M. Cerv, G. Chiodini, D. Chren, V. Cindro, G. ClausJ. Collot, J. Cumalat, A. Dabrowski, R. D'Alessandro, D. Dauvergne, W. De Boer, C. Dorfer, M. Dünser, V. Eremin, R. Eusebi, G. Forcolin, J. Forneris, H. Frais-Kölbl, L. Gallin-Martel, M. L. Gallin-Martel, K. K. Gan, M. Gastal, C. Giroletti, M. Goffe, J. Goldstein, A. Golubev, A. Gorišek, E. Grigoriev, J. Grosse-Knetter, A. Grummer, B. Gui, M. Guthoff, I. Haughton, B. Hiti, D. Hits, M. Hoeferkamp, T. Hofmann, J. Hosslet, J. Y. Hostachy, F. Hügging, C. Hutton, H. Jansen, J. Janssen, H. Kagan, K. Kanxheri, G. Kasieczka, R. Kass, F. Kassel, M. Kis, V. Konovalov, G. Kramberger, S. Kuleshov, A. Lacoste, S. Lagomarsino, A. Lo Giudice, E. Lukosi, C. Maazouzi, I. Mandic, C. Mathieu, M. Menichelli, M. Mikuž, A. Morozzi, J. Moss, R. Mountain, S. Murphy, M. Muškinja, A. Oh, P. Oliviero, D. Passeri, H. Pernegger, R. Perrino, F. Picollo, M. Pomorski, R. Potenza, A. Quadt, A. Re, M. Reichmann, G. Riley, S. Roe, D. Sanz, M. Scaringella, D. Schaefer, C. J. Schmidt, S. Schnetzer, S. Sciortino, A. Scorzoni, S. Seidel, L. Servoli, S. Smith, B. Sopko, V. Sopko, S. Spagnolo, S. Spanier, K. Stenson, R. Stone, C. Sutera, B. Tannenwald, A. Taylor, M. Traeger, D. Tromson, W. Trischuk, C. Tuve, L. Uplegger, J. Velthuis, N. Venturi, E. Vittone, S. Wagner, R. Wallny, J. C. Wang, J. Weingarten, C. Weiss, T. Wengler, N. Wermes, M. Yamouni, M. Zavrtanik

Research output: Contribution to journalArticle

4 Scopus citations

Abstract

Beam test results of the radiation tolerance study of chemical vapour deposition (CVD) diamond against different particle species and energies 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 poly-crystalline 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 functionality of poly-crystalline CVD diamond 3D devices was demonstrated in beam tests and 3D diamond detectors are shown to be a promising technology for applications in future high luminosity experiments.

Original languageEnglish (US)
Article numberC01029
JournalJournal of Instrumentation
Volume13
Issue number1
DOIs
StatePublished - Jan 1 2018

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Keywords

  • Diamond Detectors
  • Particle tracking detectors
  • Radiation-hard detectors
  • Solid state detectors

ASJC Scopus subject areas

  • Instrumentation
  • Mathematical Physics

Cite this

Bäni, L., Alexopoulos, A., Artuso, M., Bachmair, F., Bartosik, M., Beacham, J., Beck, H., Bellini, V., Belyaev, V., Bentele, B., Berdermann, E., Bergonzo, P., Bes, A., Brom, J. M., Bruzzi, M., Cerv, M., Chiodini, G., Chren, D., Cindro, V., ... Zavrtanik, M. (2018). Diamond detectors for high energy physics experiments. Journal of Instrumentation, 13(1), [C01029]. https://doi.org/10.1088/1748-0221/13/01/C01029