Silicon Detectors for the sLHC

Affolder, A.; Aleev, A.; Allport, P. P.; Andricek, L.; Artuso, M.; Balbuena, J. P.; Barabash, L.; Barber, T.; Barcz, A.; Bassignana, D.; Bates, R.; Battaglia, M.; Beimforde, M.; Bernardini, J.; Betancourt, C.; Bilei, G. M.; Bisello, D.; Blue, A.; Bohm, J.; Bolla, G.; Borgia, A.; Borrello, L.; Bortoletto, D.; Boscardin, Maurizio; Bosma, M. J.; Bowcock, T. J. V.; Breindl, M.; Broz, J.; Bruzzi, M.; Brzozowski, A.; Buhmann, P.; Buttar, C.; Campabadal, F.; Candelori, A.; Casse, G.; Charron, S.; Chren, D.; Cihangir, S.; Cindro, V.; Collins, P.; Cortina Gil, E.; Costinoaia, C. A.; Creanza, D.; Cristobal, C.; Dalla Betta, Gian Franco; de Boer, W.; De Palma, M.; Demina, R.; Dierlamm, A.; Díez, S.; Dobos, D.; Doherty, F.; Dolenc Kittelmann, I.; Dolezal, Z.; Dolgolenko, A.; Dragoi, C.; Driewer, A.; Dutta, S.; Eckstein, D.; Eklund, L.; Eremin, I.; Eremin, V.; Erfle, J.; Fadeeva, N.; Fahrer, M.; Fiori, F.; Fleta, C.; Focardi, E.; Forshaw, D.; Fretwurst, E.; Frey, M.; Bates, A. G.; Gallrapp, C.; Garcia, C.; Gaubas, E.; Genest, M. H.; Giolo, K.; Glaser, M.; Goessling, C.; Golubev, A.; Gorelov, I.; Grégoire, G.; Gregori, Paolo; Grigoriev, E.; Grillo, A. A.; Grinstein, S.; Groza, A.; Guskov, J.; Hansen, T. E.; Härkönen, J.; Hartjes, F. G.; Hartmann, F.; Hoeferkamp, M.; Horisberger, R.; Houdayer, A.; Hynds, D.; Ilyashenko, I.; Junkes, A.; Kadys, A.; Kaminski, P.; Karpenko, A.; Kaska, K.; Kazuchits, N.; Kazukauskas, V.; Kharchuk, A.; Khivrich, V.; Kierstead, J.; Klanner, R.; Klingenberg, R.; Kodys, P.; Koffeman, E.; Köhler, M.; Kohout, Z.; Korjenevski, S.; Korolkov, I.; Kozlowski, R.; Kozubal, M.; Kramberger, G.; Kühn, S.; Kuleshov, S.; Kuznetsov, A.; Kwan, S.; La Rosa, A.; Lacasta, C.; Lange, J.; Lassila Perini, K.; Lastovetsky, V.; Lazanu, I.; Lazanu, S.; Lebel, C.; Lefeuvre, G.; Lemaitre, V.; Leroy, C.; Li, Z.; Lindström, G.; Litovchenko, A.; Litovchenko, P.; Lozano, M.; Luczynski, Z.; Luukka, P.; Macchiolo, A.; Macraighne, A.; Mäenpä, T.; Makarenko, L. F.; Mandic, I.; Maneuski, D.; Manna, N.; Marco, R.; Garcia, S. Marti i.; Marunko, S.; Masek, P.; Mathieson, K.; Matysek, M.; Mekki, J.; Messineo, A.; Metcalfe, J.; Mikestikova, M.; Mikuz, M.; Militaru, O.; Minano, M.; Miyamoto, J.; Moll, M.; Monakhov, E.; Mori, R.; Moser, H. G.; Muenstermann, D.; Munoz Sanchez, F. J.; Naletko, A.; Nisius, R.; OShea, V.; Pacifico, N.; Pantano, D.; Parkes, C.; Parzefall, U.; Passeri, D.; Pawlowski, M.; Pellegrini, G.; Pernegger, H.; Petasecca, M.; Piemonte, Claudio; Pignatel, G. U.; Pintilie, I.; Pintilie, L.; Piotrzkowski, K.; Placekett, R.; Pöhlsen, T. h.; Polivtsev, L.; Popule, J.; Pospisil, S.; Preiss, J.; Radicci, V.; Radu, R.; Raf, J. M.; Rando, R.; Richter, R.; Roeder, R.; Roger, R.; Rogozhkin, S.; Rohe, T.; Ronchin, Sabina; Rott, C.; Roy, A.; Rummler, A.; Ruzin, A.; Sadrozinski, H. F. W.; Sakalauskas, S.; Samadashvili, N.; Scaringella, M.; Schumm, B.; Seidel, S.; Seiden, A.; Shipsey, I.; Sibille, J.; Sicho, P.; Slavicek, T.; Solar, M.; Soldevila Serrano, U.; Son, S.; Sopko, V.; Sopko, B.; Spencer, N.; Spiegel, L.; Srivastava, A.; Steinbrueck, G.; Stewart, G.; Stolze, D.; Storasta, J.; Surma, B.; Svensson, B. G.; Tan, P.; Tomasek, M.; Toms, K.; Tsiskaridze, S.; Tsvetkov, A.; Tuboltsev, Y. u.; Tuominen, E.; Tuovinen, E.; Tuuva, T.; Tylchin, M.; Uebersee, H.; Ullán, M.; Vaitkus, J. V.; van Beuzekom, M.; Verbitskaya, E.; Vila Alvarez, I.; Visser, J.; Vossebeld, J.; Vrba, V.; Walz, M.; Weigell, P.; Wiik, L.; Wilhelm, I.; Wunstorf, R.; Zaluzhny, A.; Zavrtanik, M.; Zelazko, J.; Zen, Mario; Zhukov, V.; Zontar, D.; Zorzi, Nicola

doi:10.1016/j.nima.2011.04.045

In current particle physics experiments, silicon strip detectors are widely used as part of the inner tracking layers. A foreseeable large-scale application for such detectors consists of the luminosity upgrade of the Large Hadron Collider (LHC), the super-LHC or sLHC, where silicon detectors with extreme radiation hardness are required. The mission statement of the CERN RD50 Collaboration is the development of radiation-hard semiconductor devices for very high luminosity colliders. As a consequence, the aim of the R&D programme presented in this article is to develop silicon particle detectors able to operate at sLHC conditions. Research has progressed in different areas, such as defect characterisation, defect engineering and full detector systems. Recent results from these areas will be presented. This includes in particular an improved understanding of the macroscopic changes of the effective doping concentration based on identification of the individual microscopic defects, results from irradiation with a mix of different particle types as expected for the sLHC, and the observation of charge multiplication effects in heavily irradiated detectors at very high bias voltages.

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Titolo:	Silicon Detectors for the sLHC
Autori:	A. Affolder A. Aleev P. P. Allport L. Andricek M. Artuso J. P. Balbuena L. Barabash T. Barber A. Barcz D. Bassignana R. Bates M. Battaglia M. Beimforde J. Bernardini C. Betancourt G. M. Bilei D. Bisello A. Blue J. Bohm G. Bolla A. Borgia L. Borrello D. Bortoletto Boscardin, Maurizio M. J. Bosma T. J. V. Bowcock M. Breindl J. Broz M. Bruzzi A. Brzozowski P. Buhmann C. Buttar F. Campabadal A. Candelori G. Casse S. Charron D. Chren S. Cihangir V. Cindro P. Collins E. Cortina Gil C. A. Costinoaia D. Creanza C. Cristobal Dalla Betta, Gian Franco W. de Boer M. De Palma R. Demina A. Dierlamm S. Díez D. Dobos F. Doherty I. Dolenc Kittelmann Z. Dolezal A. Dolgolenko C. Dragoi A. Driewer S. Dutta D. Eckstein L. Eklund I. Eremin V. Eremin J. Erfle N. Fadeeva M. Fahrer F. Fiori C. Fleta E. Focardi D. Forshaw E. Fretwurst M. Frey A. G. Bates C. Gallrapp C. Garcia E. Gaubas M. H. Genest K. Giolo M. Glaser C. Goessling A. Golubev I. Gorelov G. Grégoire Gregori, Paolo E. Grigoriev A. A. Grillo S. Grinstein A. Groza J. Guskov T. E. Hansen J. Härkönen F. G. Hartjes F. Hartmann M. Hoeferkamp R. Horisberger A. Houdayer D. Hynds I. Ilyashenko A. Junkes A. Kadys P. Kaminski A. Karpenko K. Kaska N. Kazuchits V. Kazukauskas A. Kharchuk V. Khivrich J. Kierstead R. Klanner R. Klingenberg P. Kodys E. Koffeman M. Köhler Z. Kohout S. Korjenevski I. Korolkov R. Kozlowski M. Kozubal G. Kramberger S. Kühn S. Kuleshov A. Kuznetsov S. Kwan A. La Rosa C. Lacasta J. Lange K. Lassila Perini V. Lastovetsky I. Lazanu S. Lazanu C. Lebel G. Lefeuvre V. Lemaitre C. Leroy Z. Li G. Lindström A. Litovchenko P. Litovchenko M. Lozano Z. Luczynski P. Luukka A. Macchiolo A. Macraighne T. Mäenpä L. F. Makarenko I. Mandic D. Maneuski N. Manna R. Marco S. Marti i. Garcia S. Marunko P. Masek K. Mathieson M. Matysek J. Mekki A. Messineo J. Metcalfe M. Mikestikova M. Mikuz O. Militaru M. Minano J. Miyamoto M. Moll E. Monakhov R. Mori H. G. Moser D. Muenstermann F. J. Munoz Sanchez A. Naletko R. Nisius V. OShea N. Pacifico D. Pantano C. Parkes U. Parzefall D. Passeri M. Pawlowski G. Pellegrini H. Pernegger M. Petasecca Piemonte, Claudio G. U. Pignatel I. Pintilie L. Pintilie K. Piotrzkowski R. Placekett T.h. Pöhlsen L. Polivtsev J. Popule S. Pospisil J. Preiss V. Radicci R. Radu J. M. Raf R. Rando R. Richter R. Roeder R. Roger S. Rogozhkin T. Rohe Ronchin, Sabina C. Rott A. Roy A. Rummler A. Ruzin H. F. W. Sadrozinski S. Sakalauskas N. Samadashvili M. Scaringella B. Schumm S. Seidel A. Seiden I. Shipsey J. Sibille P. Sicho T. Slavicek M. Solar U. Soldevila Serrano S. Son V. Sopko B. Sopko N. Spencer L. Spiegel A. Srivastava G. Steinbrueck G. Stewart D. Stolze J. Storasta B. Surma B. G. Svensson P. Tan M. Tomasek K. Toms S. Tsiskaridze A. Tsvetkov Y.u. Tuboltsev E. Tuominen E. Tuovinen T. Tuuva M. Tylchin H. Uebersee M. Ullán J. V. Vaitkus M. van Beuzekom E. Verbitskaya I. Vila Alvarez J. Visser J. Vossebeld V. Vrba M. Walz P. Weigell L. Wiik I. Wilhelm R. Wunstorf A. Zaluzhny M. Zavrtanik J. Zelazko Zen, Mario V. Zhukov D. Zontar Zorzi, Nicola mostra contributor esterni nascondi contributor esterni
Data di pubblicazione:	2011
Rivista:	NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. SECTION A, ACCELERATORS, SPECTROMETERS, DETECTORS AND ASSOCIATED EQUIPMENT
Abstract:	In current particle physics experiments, silicon strip detectors are widely used as part of the inner tracking layers. A foreseeable large-scale application for such detectors consists of the luminosity upgrade of the Large Hadron Collider (LHC), the super-LHC or sLHC, where silicon detectors with extreme radiation hardness are required. The mission statement of the CERN RD50 Collaboration is the development of radiation-hard semiconductor devices for very high luminosity colliders. As a consequence, the aim of the R&D programme presented in this article is to develop silicon particle detectors able to operate at sLHC conditions. Research has progressed in different areas, such as defect characterisation, defect engineering and full detector systems. Recent results from these areas will be presented. This includes in particular an improved understanding of the macroscopic changes of the effective doping concentration based on identification of the individual microscopic defects, results from irradiation with a mix of different particle types as expected for the sLHC, and the observation of charge multiplication effects in heavily irradiated detectors at very high bias voltages.
Handle:	http://hdl.handle.net/11582/55791
Appare nelle tipologie:	1.1 Articolo in rivista

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