New developments in CVD diamond for detector applications

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

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

New developments in CVD diamond for detector applications

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

School of Arts and Sciences, Physics & Astronomy

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

Chemical 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.

Original language	English (US)
Pages (from-to)	s1014-s1016
Journal	European Physical Journal C
Volume	33
DOIs	https://doi.org/10.1140/epjcd/s2004-03-1798-6
State	Published - Jul 1 2004

All Science Journal Classification (ASJC) codes

Engineering (miscellaneous)
Physics and Astronomy (miscellaneous)

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10.1140/epjcd/s2004-03-1798-6

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Adam, W., Berdermann, E., Bergonzo, P., de Boer, W., Bogani, F., Borchi, E., Brambilla, A., Bruzzi, M., Colledani, C., Conway, J., D’Angelo, P., Dabrowski, W., Delpierre, P., Dulinski, W., Doroshenko, J., van Eijk, B., Fallou, A., Fischer, P., Fizzotti, F., ... Zoeller, M. (2004). New developments in CVD diamond for detector applications. European Physical Journal C, 33, s1014-s1016. https://doi.org/10.1140/epjcd/s2004-03-1798-6

@article{edc739de43ea4318a6f3e815a66dee22,

title = "New developments in CVD diamond for detector applications",

abstract = "Chemical 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.",

author = "W. Adam and E. Berdermann and P. Bergonzo and {de Boer}, W. and F. Bogani and E. Borchi and A. Brambilla and M. Bruzzi and C. Colledani and J. Conway and P. D{\textquoteright}Angelo and W. Dabrowski and P. Delpierre and W. Dulinski and J. Doroshenko and {van Eijk}, B. and A. Fallou and P. Fischer and F. Fizzotti and C. Furetta and Gan, {K. K.} and N. Ghodbane and E. Grigoriev and G. Hallewell and S. Han and F. Hartjes and J. Hrubec and D. Husson and H. Kagan and J. Kaplon and R. Kass and M. Keil and Knoepfle, {K. T.} and T. Koeth and M. Krammer and A. Logiudice and R. Lu and {Mac Lynne}, L. and C. Manfredotti and D. Meier and D. Menichelli and S. Meuser and M. Mishina and L. Moroni and J. Noomen and A. Oh and M. Pernicka and L. Perera and R. Potenza and Riester, {J. L.} and S. Roe and A. Rudge and S. Sala and M. Sampietro and S. Schnetzer and S. Sciortino and H. Stelzer and R. Stone and C. Sutera and W. Trischuk and D. Tromson and C. Tuve and B. Vincenzo and P. Weilhammer and N. Wermes and M. Wetstein and W. Zeuner and M. Zoeller",

note = "Publisher Copyright: {\textcopyright} 2004, Springer-Verlag, Societ{\`a} Italiana di Fisica.",

year = "2004",

month = jul,

day = "1",

doi = "10.1140/epjcd/s2004-03-1798-6",

language = "English (US)",

volume = "33",

pages = "s1014--s1016",

journal = "European Physical Journal C",

issn = "1434-6044",

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Adam, W, Berdermann, E, Bergonzo, P, de Boer, W, Bogani, F, Borchi, E, Brambilla, A, Bruzzi, M, Colledani, C, Conway, J, D’Angelo, P, Dabrowski, W, Delpierre, P, Dulinski, W, Doroshenko, J, van Eijk, B, Fallou, A, Fischer, P, Fizzotti, F, Furetta, C, Gan, KK, Ghodbane, N, Grigoriev, E, Hallewell, G, Han, S, Hartjes, F, Hrubec, J, Husson, D, Kagan, H, Kaplon, J, Kass, R, Keil, M, Knoepfle, KT, Koeth, T, Krammer, M, Logiudice, A, Lu, R, Mac Lynne, L, Manfredotti, C, Meier, D, Menichelli, D, Meuser, S, Mishina, M, Moroni, L, Noomen, J, Oh, A, Pernicka, M, Perera, L, Potenza, R, Riester, JL, Roe, S, Rudge, A, Sala, S, Sampietro, M, Schnetzer, S, Sciortino, S, Stelzer, H, Stone, R, Sutera, C, Trischuk, W, Tromson, D, Tuve, C, Vincenzo, B, Weilhammer, P, Wermes, N, Wetstein, M, Zeuner, W & Zoeller, M 2004, 'New developments in CVD diamond for detector applications', European Physical Journal C, vol. 33, pp. s1014-s1016. https://doi.org/10.1140/epjcd/s2004-03-1798-6

TY - JOUR

T1 - New developments in CVD diamond for detector applications

AU - Adam, W.

AU - Berdermann, E.

AU - Bergonzo, P.

AU - de Boer, W.

AU - Bogani, F.

AU - Borchi, E.

AU - Brambilla, A.

AU - Bruzzi, M.

AU - Colledani, C.

AU - Conway, J.

AU - D’Angelo, P.

AU - Dabrowski, W.

AU - Delpierre, P.

AU - Dulinski, W.

AU - Doroshenko, J.

AU - van Eijk, B.

AU - Fallou, A.

AU - Fischer, P.

AU - Fizzotti, F.

AU - Furetta, C.

AU - Gan, K. K.

AU - Ghodbane, N.

AU - Grigoriev, E.

AU - Hallewell, G.

AU - Han, S.

AU - Hartjes, F.

AU - Hrubec, J.

AU - Husson, D.

AU - Kagan, H.

AU - Kaplon, J.

AU - Kass, R.

AU - Keil, M.

AU - Knoepfle, K. T.

AU - Koeth, T.

AU - Krammer, M.

AU - Logiudice, A.

AU - Lu, R.

AU - Mac Lynne, L.

AU - Manfredotti, C.

AU - Meier, D.

AU - Menichelli, D.

AU - Meuser, S.

AU - Mishina, M.

AU - Moroni, L.

AU - Noomen, J.

AU - Oh, A.

AU - Pernicka, M.

AU - Perera, L.

AU - Potenza, R.

AU - Riester, J. L.

AU - Roe, S.

AU - Rudge, A.

AU - Sala, S.

AU - Sampietro, M.

AU - Schnetzer, S.

AU - Sciortino, S.

AU - Stelzer, H.

AU - Stone, R.

AU - Sutera, C.

AU - Trischuk, W.

AU - Tromson, D.

AU - Tuve, C.

AU - Vincenzo, B.

AU - Weilhammer, P.

AU - Wermes, N.

AU - Wetstein, M.

AU - Zeuner, W.

AU - Zoeller, M.

PY - 2004/7/1

Y1 - 2004/7/1

N2 - Chemical 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.

AB - Chemical 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.

UR - http://www.scopus.com/inward/record.url?scp=85014567792&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85014567792&partnerID=8YFLogxK

U2 - 10.1140/epjcd/s2004-03-1798-6

DO - 10.1140/epjcd/s2004-03-1798-6

M3 - Article

AN - SCOPUS:85014567792

SN - 1434-6044

VL - 33

SP - s1014-s1016

JO - European Physical Journal C

JF - European Physical Journal C

ER -

New developments in CVD diamond for detector applications

Abstract

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