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At present most experiments at the CERN Large Hadron Collider (LHC) are planning upgrades in the next 5-10 years for their innermost tracking layers as well as luminosity monitors to be able to take data as the luminosity increases and CERN moves toward the High Luminosity-LHC (HL-LHC). These upgrades will most likely require more radiation tolerant technologies than exist today. As a result this is one area of intense research, and Chemical Vapour Deposition (CVD) diamond is one such technology. CVD diamond has been used extensively in beam condition monitors as the innermost detectors in the highest radiation areas of all LHC experiments. This talk describes the preliminary radiation tolerance measurements of the highest quality polycrystalline CVD material for a range of proton energies and neutrons obtained with this material with the goal of elucidating the issues that should be addressed for future diamond based detectors. The talk presents the evolution of various semiconductor parameters as a function of dose.

Latest results on radiation tolerance of diamond detectors

Oh A.;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.;De Boer W.;Dick S.;Dorfer C.;Dunser M.;Eremin V.;Forcolin G.;Forneris J.;Gallin-Martel L.;Gallin-Martel M-L.;Gan K. K.;Gastal M.;Goffe M.;Goldstein J.;Golubev A.;Gorisek A.;Grigoriev E.;Grosse-Knetter J.;Grummer A.;Guthoff M.;Haughton I.;Hiti B.;Hits D.;Hoeferkamp M.;Hofmann T.;Hosslet J.;Hostachy J-Y.;Hugging F.;Hutton C.;Janssen J.;Kagan H.;Kanxheri K.;Kasieczka G.;Kass R.;Kassel F.;Kis M.;Kramberger G.;Kuleshov S.;Lacoste A.;Lagomarsino S.;Lo Giudice A.;Lukosi E.;Maazouzi C.;Mandic I.;Mathieu C.;Menichelli M.;Mikuz M.;Morozzi A.;Moss J.;Mountain R.;Murphy S.;Olivero P.;Passeri D.;Pernegger H.;Perrino R.;Picollo F.;Pomorski M.;Potenza R.;Quadt A.;Re A.;Reichmann M.;Riley G.;Roe S.;Sanz D.;Scaringella M.;Schmidt C. J.;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.;Sutera C.;Taylor A.;Traeger M.;Tromson D.;Trischuk W.;Tuve C.;Velthuis J.;Venturi N.;Vittone E.;Wagner S.;Wallny R.;Wang J. C.;Weingarten J.;Weiss C.;Wermes N.;Yamouni M.;Zavrtanik M.

2019-01-01

Abstract

At present most experiments at the CERN Large Hadron Collider (LHC) are planning upgrades in the next 5-10 years for their innermost tracking layers as well as luminosity monitors to be able to take data as the luminosity increases and CERN moves toward the High Luminosity-LHC (HL-LHC). These upgrades will most likely require more radiation tolerant technologies than exist today. As a result this is one area of intense research, and Chemical Vapour Deposition (CVD) diamond is one such technology. CVD diamond has been used extensively in beam condition monitors as the innermost detectors in the highest radiation areas of all LHC experiments. This talk describes the preliminary radiation tolerance measurements of the highest quality polycrystalline CVD material for a range of proton energies and neutrons obtained with this material with the goal of elucidating the issues that should be addressed for future diamond based detectors. The talk presents the evolution of various semiconductor parameters as a function of dose.

Scheda breve

Scheda completa

Scheda completa (DC)

	Anno
	
			2019
		
	Titolo dell'evento
	
			39th International Conference on High Energy Physics, ICHEP 2018
		
	Luogo dell'evento
	
			kor
		
	Data dell'evento
	
			2018
		
	N. Volume
	
			340
		
	Pagine (da)
	
			1
		
	Pagine (a)
	
			5
		
	Titolo della rivista
	
			POS PROCEEDINGS OF SCIENCE
		
	Parole Chiave
	
			Chemical vapor deposition, Diamonds, High energy physics, Luminance, Particle accelerators
		
	Tutti gli autori
	
			Oh A.; 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.; De Boer W.; Dick S.; Dorfer C.; Dunser M.; Eremin V.; Forcolin G.; Forneris J.; Gallin-Martel L.; Gallin-Martel M-L.; Gan K.K.; Gastal M.; Goffe M.; Goldstein J.; Golubev A.; Gorisek A.; Grigoriev E.; Grosse-Knetter J.; Grummer A.; Guthoff M.; Haughton I.; Hiti B.; Hits D.; Hoeferkamp M.; Hofmann T.; Hosslet J.; Hostachy J-Y.; Hugging F.; Hutton C.; Janssen J.; Kagan H.; Kanxheri K.; Kasieczka G.; Kass R.; Kassel F.; Kis M.; Kramberger G.; Kuleshov S.; Lacoste A.; Lagomarsino S.; Lo Giudice A.; Lukosi E.; Maazouzi C.; Mandic I.; Mathieu C.; Menichelli M.; Mikuz M.; Morozzi A.; Moss J.; Mountain R.; Murphy S.; Olivero P.; Passeri D.; Pernegger H.; Perrino R.; Picollo F.; Pomorski M.; Potenza R.; Quadt A.; Re A.; Reichmann M.; Riley G.; Roe S.; Sanz D.; Scaringella M.; Schmidt C.J.; 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.; Sutera C.; Taylor A.; Traeger M.; Tromson D.; Trischuk W.; Tuve C.; Velthuis J.; Venturi N.; Vittone E.; Wagner S.; Wallny R.; Wang J.C.; Weingarten J.; Weiss C.; Wermes N.; Yamouni M.; Zavrtanik M.
		
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/1949750

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