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Review of the development of diamond radiation sensors
Diamond radiation sensors produced by chemical vapour deposition are studied for the application as tracking detectors in high luminosity experiments. Sensors with a charge collection distance up to 250 mu m have been manufactured. Their radiation hardness has been studied with pions, proton and neu...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
1999
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1016/S0168-9002(99)00447-7 http://cds.cern.ch/record/410791 |
| _version_ | 1780894587462615040 |
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| author | Adam, W Bauer, C Berdermann, E Bergonzo, P Bogani, F Borchi, E Brambilla, A Bruzzi, Mara Colledani, C Conway, J Dabrowski, W Delpierre, P A Deneuville, A Dulinski, W van Eijk, B Fallou, A Fizzotti, F Foulon, F Friedl, M Gan, K K Gheeraert, E Grigoriev, E Hallewell, G D Hall-Wilton, R Han, S Hartjes, F G Hrubec, Josef Husson, D Kagan, H Kania, D R Kaplon, J Karl, C Kass, R Knöpfle, K T Krammer, Manfred Lo Giudice, A Lü, R Manfredi, P F Manfredotti, C Marshall, R D Meier, D Mishina, M Oh, A Pan, L S Palmieri, V G Pernicka, Manfred Peitz, A Pirollo, S Polesello, P Pretzl, Klaus P Re, V Riester, J L Roe, S Roff, D G Rudge, A Schnetzer, S R Sciortino, S Speziali, V Stelzer, H Stone, R Tapper, R J Tesarek, R J Thomson, G B Trawick, M L Trischuk, W Vittone, E Walsh, A M Wedenig, R Weilhammer, Peter Ziock, H J Zöller, M |
| author_facet | Adam, W Bauer, C Berdermann, E Bergonzo, P Bogani, F Borchi, E Brambilla, A Bruzzi, Mara Colledani, C Conway, J Dabrowski, W Delpierre, P A Deneuville, A Dulinski, W van Eijk, B Fallou, A Fizzotti, F Foulon, F Friedl, M Gan, K K Gheeraert, E Grigoriev, E Hallewell, G D Hall-Wilton, R Han, S Hartjes, F G Hrubec, Josef Husson, D Kagan, H Kania, D R Kaplon, J Karl, C Kass, R Knöpfle, K T Krammer, Manfred Lo Giudice, A Lü, R Manfredi, P F Manfredotti, C Marshall, R D Meier, D Mishina, M Oh, A Pan, L S Palmieri, V G Pernicka, Manfred Peitz, A Pirollo, S Polesello, P Pretzl, Klaus P Re, V Riester, J L Roe, S Roff, D G Rudge, A Schnetzer, S R Sciortino, S Speziali, V Stelzer, H Stone, R Tapper, R J Tesarek, R J Thomson, G B Trawick, M L Trischuk, W Vittone, E Walsh, A M Wedenig, R Weilhammer, Peter Ziock, H J Zöller, M |
| author_sort | Adam, W |
| collection | CERN |
| description | Diamond radiation sensors produced by chemical vapour deposition are studied for the application as tracking detectors in high luminosity experiments. Sensors with a charge collection distance up to 250 mu m have been manufactured. Their radiation hardness has been studied with pions, proton and neutrons up to fluences of 1.9*10/sup 15/ pi cm/sup -2/, 5*10/sup 19/ p cm/sup -2/ and 1.35*10/sup 15/ n cm/sup -2 /, respectively. Diamond micro-strip detectors with 50 mu m pitch have been exposed in a high-energy test beam in order to investigate their charge collection properties. The measured spatial resolution using a centre-of-gravity position finding algorithm corresponds to the digital resolution for this strip pitch. First results from a strip tracker with a 2*4 cm/sup 2/ surface area are reported as well as the performance of a diamond tracker read out by radiation-hard electronics with 25 ns shaping time. Diamond pixel sensors have been prepared to match the geometries of the recently available read-out chip prototypes for ATLAS and CMS. Beam test results are shown from a diamond detector bump-bonded to an ATLAS prototype read-out. They demonstrate a 98bump-bonding efficiency and a digital resolution in both dimensions. (18 refs). |
| id | cern-410791 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 1999 |
| record_format | invenio |
| spelling | cern-4107912019-09-30T06:29:59Zdoi:10.1016/S0168-9002(99)00447-7http://cds.cern.ch/record/410791engAdam, WBauer, CBerdermann, EBergonzo, PBogani, FBorchi, EBrambilla, ABruzzi, MaraColledani, CConway, JDabrowski, WDelpierre, P ADeneuville, ADulinski, Wvan Eijk, BFallou, AFizzotti, FFoulon, FFriedl, MGan, K KGheeraert, EGrigoriev, EHallewell, G DHall-Wilton, RHan, SHartjes, F GHrubec, JosefHusson, DKagan, HKania, D RKaplon, JKarl, CKass, RKnöpfle, K TKrammer, ManfredLo Giudice, ALü, RManfredi, P FManfredotti, CMarshall, R DMeier, DMishina, MOh, APan, L SPalmieri, V GPernicka, ManfredPeitz, APirollo, SPolesello, PPretzl, Klaus PRe, VRiester, J LRoe, SRoff, D GRudge, ASchnetzer, S RSciortino, SSpeziali, VStelzer, HStone, RTapper, R JTesarek, R JThomson, G BTrawick, M LTrischuk, WVittone, EWalsh, A MWedenig, RWeilhammer, PeterZiock, H JZöller, MReview of the development of diamond radiation sensorsDetectors and Experimental TechniquesDiamond radiation sensors produced by chemical vapour deposition are studied for the application as tracking detectors in high luminosity experiments. Sensors with a charge collection distance up to 250 mu m have been manufactured. Their radiation hardness has been studied with pions, proton and neutrons up to fluences of 1.9*10/sup 15/ pi cm/sup -2/, 5*10/sup 19/ p cm/sup -2/ and 1.35*10/sup 15/ n cm/sup -2 /, respectively. Diamond micro-strip detectors with 50 mu m pitch have been exposed in a high-energy test beam in order to investigate their charge collection properties. The measured spatial resolution using a centre-of-gravity position finding algorithm corresponds to the digital resolution for this strip pitch. First results from a strip tracker with a 2*4 cm/sup 2/ surface area are reported as well as the performance of a diamond tracker read out by radiation-hard electronics with 25 ns shaping time. Diamond pixel sensors have been prepared to match the geometries of the recently available read-out chip prototypes for ATLAS and CMS. Beam test results are shown from a diamond detector bump-bonded to an ATLAS prototype read-out. They demonstrate a 98bump-bonding efficiency and a digital resolution in both dimensions. (18 refs).oai:cds.cern.ch:4107911999 |
| spellingShingle | Detectors and Experimental Techniques Adam, W Bauer, C Berdermann, E Bergonzo, P Bogani, F Borchi, E Brambilla, A Bruzzi, Mara Colledani, C Conway, J Dabrowski, W Delpierre, P A Deneuville, A Dulinski, W van Eijk, B Fallou, A Fizzotti, F Foulon, F Friedl, M Gan, K K Gheeraert, E Grigoriev, E Hallewell, G D Hall-Wilton, R Han, S Hartjes, F G Hrubec, Josef Husson, D Kagan, H Kania, D R Kaplon, J Karl, C Kass, R Knöpfle, K T Krammer, Manfred Lo Giudice, A Lü, R Manfredi, P F Manfredotti, C Marshall, R D Meier, D Mishina, M Oh, A Pan, L S Palmieri, V G Pernicka, Manfred Peitz, A Pirollo, S Polesello, P Pretzl, Klaus P Re, V Riester, J L Roe, S Roff, D G Rudge, A Schnetzer, S R Sciortino, S Speziali, V Stelzer, H Stone, R Tapper, R J Tesarek, R J Thomson, G B Trawick, M L Trischuk, W Vittone, E Walsh, A M Wedenig, R Weilhammer, Peter Ziock, H J Zöller, M Review of the development of diamond radiation sensors |
| title | Review of the development of diamond radiation sensors |
| title_full | Review of the development of diamond radiation sensors |
| title_fullStr | Review of the development of diamond radiation sensors |
| title_full_unstemmed | Review of the development of diamond radiation sensors |
| title_short | Review of the development of diamond radiation sensors |
| title_sort | review of the development of diamond radiation sensors |
| topic | Detectors and Experimental Techniques |
| url | https://dx.doi.org/10.1016/S0168-9002(99)00447-7 http://cds.cern.ch/record/410791 |
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