New developments in CVD diamond for detector applications

Adam, W; Grigorev, E; Krammer, M; Potenza, R; Logiudice, A; Colledani, C; Kagan, H; Noomen, J; Stelzer, H; Sala, S; Dulinski, W; Koeth, T; Manfredotti, C; Meuser, S; Fallou, A; Trischuk, W; Schnetzer, S; Weilhammer, P; Oh, A; Borchi, E; Conway, J; Wetstein, M; Roe, S; Keil, M; Zeuner, W; Lu, R; Berdermann, E; Vincenzo, B; Tromson, D; Riester, J L; van Eijk, B; Husson, D; Tuve, C; Sciortino, Silvio; Fischer, P; Hrubec, J; Sutera, C; Ghodbane, N; Gan, K K; Stone, R; D'Angelo, P; Han, S; Hallewell, G; Rudge, A; Moroni, L; Pernicka, M; Perera, L; Kass, R; de Boer, W; Knoepfle, K T; Bruzzi, M; Delpierre, P; Brambilla, A; Zoeller, M; Furetta, C; Hartjes, F; Doroshenko, J; Wermes, N; Meier, D; Fizzotti, F; Mishina, M; Bergonzo, P; MacLynne, L; Dabrowski, W; Kaplon, J; Sampietro, M; Bogani, F; Menichelli, D

doi:10.1140/epjcd/s2004-03-1798-6

002633586 001__ 2633586
002633586 003__ SzGeCERN
002633586 005__ 20180808224427.0
002633586 0247_ $$2DOI$$a10.1140/epjcd/s2004-03-1798-6
002633586 0248_ $$aoai:inspirehep.net:666054$$pcerncds:CERN$$qINSPIRE:HEP$$qCERN$$qForCDS
002633586 035__ $$9http://inspirehep.net/oai2d$$aoai:inspirehep.net:666054$$d2018-08-07T16:28:00Z$$h2018-08-08T04:17:30Z$$mmarcxml
002633586 035__ $$9Inspire$$a666054
002633586 041__ $$aeng
002633586 100__ $$aAdam, W$$uOAW, Vienna
002633586 210__ $$aCHEMICAL VAPOR DEPOSITION METHOD
002633586 245__ $$aNew developments in CVD diamond for detector applications
002633586 260__ $$c2004
002633586 269__ $$c2004
002633586 300__ $$a3 p
002633586 520__ $$9Springer$$aChemical Vapor Deposition (CVD) diamond has been discussed extensively as an alternative sensor material for use very close to the interaction region of the LHC and other machines where extreme radiation conditions exist. During the last seven years the RD42 collaboration has developed diamond detectors and tested them with LHC electronics towards the end of creating a device usable by experiments. The most recent results of this work are presented. Recently, a new form of CVD diamond has been developed: single crystal CVD diamond which resolves many of the issues associated with poly-crystalline CVD material. The first tests of this material are also presented.
002633586 65017 $$2SzGeCERN$$aDetectors and Experimental Techniques
002633586 690C_ $$aCERN
002633586 693__ $$aNot applicable$$eRD42
002633586 700__ $$aBerdermann, E$$uDarmstadt, GSI
002633586 700__ $$aBergonzo, P$$uCEA-DTA-LETI, Grenoble
002633586 700__ $$ade Boer, W$$uKarlsruhe U.
002633586 700__ $$aBogani, F$$uFlorence U., LENS
002633586 700__ $$aBorchi, E$$uU. Florence (main)
002633586 700__ $$aBrambilla, A$$uCEA-DTA-LETI, Grenoble
002633586 700__ $$aBruzzi, M$$uU. Florence (main)
002633586 700__ $$aColledani, C$$uLouis Pasteur U., Strasbourg I
002633586 700__ $$aConway, J$$uRutgers U., Piscataway (main)
002633586 700__ $$aD'Angelo, P$$uINFN, Milan
002633586 700__ $$aDabrowski, W$$uAGH-UST, Cracow
002633586 700__ $$aDelpierre, P$$uMarseille, CPPM
002633586 700__ $$aDulinski, W$$uLouis Pasteur U., Strasbourg I
002633586 700__ $$aDoroshenko, J$$uRutgers U., Piscataway (main)
002633586 700__ $$avan Eijk, B$$uNikhef, Amsterdam
002633586 700__ $$aFallou, A$$uMarseille, CPPM
002633586 700__ $$aFischer, P$$uU. Toronto (main)
002633586 700__ $$aFizzotti, F$$uU. Turin (main)
002633586 700__ $$aFuretta, C$$uINFN, Milan
002633586 700__ $$aGan, K K$$uOhio State U., Columbus (main)
002633586 700__ $$aGhodbane, N$$uHamburg U., Inst. Exp. Phys. II
002633586 700__ $$aGrigorev, E$$uKarlsruhe U.
002633586 700__ $$aHallewell, G$$uMarseille, CPPM
002633586 700__ $$aHan, S$$uOhio State U., Columbus (main)
002633586 700__ $$aHartjes, F$$uNikhef, Amsterdam
002633586 700__ $$aHrubec, J$$uOAW, Vienna
002633586 700__ $$aHusson, D$$uLouis Pasteur U., Strasbourg I
002633586 700__ $$aKagan, H$$uOhio State U., Columbus (main)
002633586 700__ $$aKaplon, J$$uCERN
002633586 700__ $$aKass, R$$uOhio State U., Columbus (main)
002633586 700__ $$aKeil, M$$uU. Bonn (main)
002633586 700__ $$aKnoepfle, K T$$uHeidelberg, Max Planck Inst.
002633586 700__ $$aKoeth, T$$uRutgers U., Piscataway (main)
002633586 700__ $$aKrammer, M$$uOAW, Vienna
002633586 700__ $$aLogiudice, A$$uU. Turin (main)
002633586 700__ $$aLu, R$$uU. Turin (main)
002633586 700__ $$aMacLynne, L$$uRutgers U., Piscataway (main)
002633586 700__ $$aManfredotti, C$$uU. Turin (main)
002633586 700__ $$aMeier, D$$uCERN
002633586 700__ $$aMenichelli, D$$uU. Florence (main)
002633586 700__ $$aMeuser, S$$uU. Bonn (main)
002633586 700__ $$aMishina, M$$uFermilab
002633586 700__ $$aMoroni, L$$uINFN, Milan
002633586 700__ $$aNoomen, J$$uNikhef, Amsterdam
002633586 700__ $$aOh, A$$uCERN
002633586 700__ $$aPernicka, M$$uOAW, Vienna
002633586 700__ $$aPerera, L$$uRutgers U., Piscataway (main)
002633586 700__ $$aPotenza, R$$uU. Rome La Sapienza (main)
002633586 700__ $$aRiester, J L$$uLouis Pasteur U., Strasbourg I
002633586 700__ $$aRoe, S$$uCERN
002633586 700__ $$aRudge, A$$uCERN
002633586 700__ $$aSala, S$$uINFN, Milan
002633586 700__ $$aSampietro, M$$uMilan Polytechnic
002633586 700__ $$aSchnetzer, S$$uRutgers U., Piscataway (main)
002633586 700__ $$aSciortino, Silvio$$uU. Florence (main)
002633586 700__ $$aStelzer, H$$uDarmstadt, GSI
002633586 700__ $$aStone, R$$uRutgers U., Piscataway (main)
002633586 700__ $$aSutera, C$$uU. Rome La Sapienza (main)
002633586 700__ $$aTrischuk, W$$uU. Toronto (main)
002633586 700__ $$aTromson, D$$uCEA-DTA-LETI, Grenoble
002633586 700__ $$aTuve, C$$uU. Rome La Sapienza (main)
002633586 700__ $$aVincenzo, B$$uU. Rome La Sapienza (main)
002633586 700__ $$aWeilhammer, P$$uCERN
002633586 700__ $$aWermes, N$$uU. Bonn (main)
002633586 700__ $$aWetstein, M$$uRutgers U., Piscataway (main)
002633586 700__ $$aZeuner, W$$uHamburg U., Inst. Exp. Phys. II
002633586 700__ $$aZoeller, M$$uOhio State U., Columbus (main)
002633586 710__ $$gRD42
002633586 773__ $$cS1014-S1016$$pEur. Phys. J. C$$v33$$y2004
002633586 773__ $$tPrepared for$$wC03-07-17
002633586 902__ $$aVienna, OAW
002633586 902__ $$aDarmstadt, GSI
002633586 902__ $$aSaclay
002633586 902__ $$aFlorence U., LENS
002633586 902__ $$aFlorence U.
002633586 902__ $$aLouis Pasteur U., Strasbourg I
002633586 902__ $$aRutgers U., Piscataway
002633586 902__ $$aINFN, Milan
002633586 902__ $$aAGH-UST, Cracow
002633586 902__ $$aMarseille, CPPM
002633586 902__ $$aHamburg U.
002633586 902__ $$aNIKHEF, Amsterdam
002633586 902__ $$aBonn U.
002633586 902__ $$aTurin U.
002633586 902__ $$aOhio State U.
002633586 902__ $$aCERN
002633586 902__ $$aHeidelberg, Max Planck Inst.
002633586 902__ $$aFermilab
002633586 902__ $$aMilan Polytechnic
002633586 902__ $$aToronto U.
002633586 902__ $$aKarlsruhe U.
002633586 902__ $$aRome U.
002633586 960__ $$a13
002633586 962__ $$b585517$$kS1014-S1016$$naachen20030717
002633586 980__ $$aARTICLE
002633586 980__ $$aConferencePaper
002633586 999C5 $$rCERN-LHCC-2002-010
002633586 999C5 $$rDESY-THESIS-1999-022
002633586 999C5 $$sNucl.Instrum.Meth.,A476,686
002633586 999C5 $$sNucl.Instrum.Meth.,A388,421
002633586 999C5 $$rhep-ex/0108038$$sNucl.Instrum.Meth.,A489,230
002633586 999C5 $$sNucl.Instrum.Meth.,A453,141
002633586 999C5 $$sNucl.Instrum.Meth.,A501,153
002633586 999C5 $$sIEEE Trans.Nucl.Sci.,49,1059
002633586 999C5 $$sScience,297,1670

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