http://www.cnr.it/ontology/cnr/individuo/prodotto/ID180113
Radiation-hard semiconductor detectors for SuperLHC (Articolo in rivista)
- Type
- Label
- Radiation-hard semiconductor detectors for SuperLHC (Articolo in rivista) (literal)
- Anno
- 2005-01-01T00:00:00+01:00 (literal)
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#doi
- 10.1016/j.nima.2005.01.056 (literal)
- Alternative label
Bruzzi M.; Adey J.; Al-Ajili A.; Alexandrov P.; Alfieri G.; Allport P.P.; Andreazza A.; Artuso M.; Assouak S.; Avset B.S.; Barabash L.; Baranovad E.; Barcz A.; Basile A.; Bates R.; Belova N.; Biagi S.F.; Bilei G.M.; Bisello D.; Blue A.; Blumenau A.; Boisvert V.; Bolla G.; Bondarenko G.; Borchi E.; Borrello L.; Bortoletto D.; Boscardin M.; Bosisio L.; Bowcock V.; Brodbeck T.J.; Broz J.; Brukhanov A.; Brzozowski A.; Budas M.; Buhmann P.; Buttar C.; Campabadal F.; Campbell D.; Candelori A.; Casse G.; Cavalliniaa A.; Chilingarov A.; Chren D.; Cindro V.; Citterio M.; Collins P.; Coluccia R.; Contarato D.; Coutinho J.; Creanza D.; Cunningham W.; Cvetkov V.; Dalla Betta G.-F.; Davies G.; Dawson I.; de Boer W.; De Palma M.; Demina R.; Dervan P.; Dierlamm A.; Dittongo S.; Dobrzanski L.; Dolezal Z.; Dolgolenko A.; Eberlein T.; Eremin V.; Fall C.; Fasolo F.; Ferbel T.; Fizzotti F.; Fleta C.; Focardi E.; Forton E.; Franchenko S.; Fretwurst E.; Gamaz F.; Garcia C.; Garcia-Navarro J.E.; Gaubas E.; Genest M.-H.; Gill K.A.; Giolo K.; Glaser M.; Goessling C.; Golovine V.; Gonza´ lez Sevilla S.; Gorelovb I.; Goss J.; Gouldwell A.; Gregoire G.; Gregoris P.; Grigoriev E.; Grigson C.; Grilloc A.; Grozak A.; Guskov J.; Haddad L.; Harkonen J.; Harding R.; Hauler F.; Hayama S.; Hoeferkampb M.; Honniger F.; Horazdovsky T.; Horisberger R.; Horn M.; Houdayer A.; Hourahine B.; Hruban A.; Hughes G.; Ilyashenko I.; Irmscherd K.; Ivanov A.; Jarasiunas K.; Jin T.; Jones B.K.; Jones R.; Joram C.; Jungermann L.; Kalinina E.; Kaminski P.; Karpenko A.; Karpov A.; Kazlauskiene V.; Kazukauskas V.; Khivrich V.; Khomenkov V.; Kierstead J.; Klaiber-Lodewigs J.; Kleverman M.; Klingenberg R.; Kodys P.; Kohout Z.; Korjenevski S.; Kowalik A.; Kozlowski R.; Kozodaev M.; Kramberger G.; Krasel O.; Kuznetsov A.; Kwan S.; Lagomarsino S.; Lari T.; Lassila-Perini K.; Lastovetsky V.; Latinob G.; Latushkin S.; Lazanu S.; Lazanu I.; Lebel C.; Leinonen K.; Leroy C.; Li Z.; Lindstrom G.; Lindstrom L.; Linhart V.; Litovchenko A.; Litovchenko P.; Litvinov V.; Lo Giudice A.; Lozano M.; Luczynski Z.; Luukka P.; Macchiolo A.; Mainwood A.; Makarenko L.F.; Mandic' I.; Manfredotti C.; Marti i Garcia S.; Marunko S.; Mathieson K.; Mozzanti A.; Melone J.; Menichelli D.; Meroni C.; Messineo A.; Miglio S.; Mikuz? M.; Miyamoto J.; Moll M.; Monakhov E.; Moscatelli F.; Murin L.; Nava F.; Naoumovb D.; Nossarzewska-Orlowska E.; Nummela S.; Nysten J.; Olivero P.; Oshea V.; Palviainen T.; Paolini C.; Parkes C.; Passeri D.; Pein U.; Pellegrini G.; Perera L.; Petasecca M.; Piatkowski B.; Piemonte C.; Pignatel G.U.; Pinho N.; Pintilie I.; Pintilie L.; Polivtsev L.; Polozov P.; Popa A.I.; Popule J.; Pospisil S.; Pucker G.; Radicci V.; Raf?´J.M.; Ragusa F.; Rahman M.; Rando R.; Roeder R.; Rohe T.; Ronchin S.; Rott C.; Roy P.; Roy A.; Ruzin A.; Ryazanov A.; Sadrozinskic H.F.W.; Sakalauskas S.; Scaringella M.; Schiavulli L.; Schnetzer S.; Schummc B.; Sciortino S.; Scorzoni A. ; Segneri G.; Seidelb S.; Seidenc A.; Sellberg G.; Sellin P.; Sentenac D.; Shipsey I.; Sicho P.; Sloan T.; Solar M.; Son S.; Sopko B.; Spencerc N.; Stahl J.; Stavitski I.; Stolze D.; Stone R.; Storasta J.; Strokan N.; Strupinski W.; Sudzius M.; Surmal B.; Suuronen J.; Suvorov A.; Svensson B.G.; Tipton P.; Tomasek M.; Troncon C.; Tsvetkov A.; Tuominen E.; Tuovinen E.; Tuuva T.; Tylchin M.; Uebersee H.; Uher J.; Ullan M.; Vaitkus J.V.; Vanni P.; Velthuis J.; Verzellesi G.; Verbitskaya E.; Vrba V.; Wagner G.; Wilhelm I.; Worm S.; Wright V.; Wunstorf R.; Zabierowski P.; Zaluzhny A.; Zavrtanik M.; Zen M.; Zhukov V.; Zorzi N. (2005)
Radiation-hard semiconductor detectors for SuperLHC
in NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT; Elsevier BV, Amsterdam (Paesi Bassi)
(literal)
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#autori
- Bruzzi M.; Adey J.; Al-Ajili A.; Alexandrov P.; Alfieri G.; Allport P.P.; Andreazza A.; Artuso M.; Assouak S.; Avset B.S.; Barabash L.; Baranovad E.; Barcz A.; Basile A.; Bates R.; Belova N.; Biagi S.F.; Bilei G.M.; Bisello D.; Blue A.; Blumenau A.; Boisvert V.; Bolla G.; Bondarenko G.; Borchi E.; Borrello L.; Bortoletto D.; Boscardin M.; Bosisio L.; Bowcock V.; Brodbeck T.J.; Broz J.; Brukhanov A.; Brzozowski A.; Budas M.; Buhmann P.; Buttar C.; Campabadal F.; Campbell D.; Candelori A.; Casse G.; Cavalliniaa A.; Chilingarov A.; Chren D.; Cindro V.; Citterio M.; Collins P.; Coluccia R.; Contarato D.; Coutinho J.; Creanza D.; Cunningham W.; Cvetkov V.; Dalla Betta G.-F.; Davies G.; Dawson I.; de Boer W.; De Palma M.; Demina R.; Dervan P.; Dierlamm A.; Dittongo S.; Dobrzanski L.; Dolezal Z.; Dolgolenko A.; Eberlein T.; Eremin V.; Fall C.; Fasolo F.; Ferbel T.; Fizzotti F.; Fleta C.; Focardi E.; Forton E.; Franchenko S.; Fretwurst E.; Gamaz F.; Garcia C.; Garcia-Navarro J.E.; Gaubas E.; Genest M.-H.; Gill K.A.; Giolo K.; Glaser M.; Goessling C.; Golovine V.; Gonza´ lez Sevilla S.; Gorelovb I.; Goss J.; Gouldwell A.; Gregoire G.; Gregoris P.; Grigoriev E.; Grigson C.; Grilloc A.; Grozak A.; Guskov J.; Haddad L.; Harkonen J.; Harding R.; Hauler F.; Hayama S.; Hoeferkampb M.; Honniger F.; Horazdovsky T.; Horisberger R.; Horn M.; Houdayer A.; Hourahine B.; Hruban A.; Hughes G.; Ilyashenko I.; Irmscherd K.; Ivanov A.; Jarasiunas K.; Jin T.; Jones B.K.; Jones R.; Joram C.; Jungermann L.; Kalinina E.; Kaminski P.; Karpenko A.; Karpov A.; Kazlauskiene V.; Kazukauskas V.; Khivrich V.; Khomenkov V.; Kierstead J.; Klaiber-Lodewigs J.; Kleverman M.; Klingenberg R.; Kodys P.; Kohout Z.; Korjenevski S.; Kowalik A.; Kozlowski R.; Kozodaev M.; Kramberger G.; Krasel O.; Kuznetsov A.; Kwan S.; Lagomarsino S.; Lari T.; Lassila-Perini K.; Lastovetsky V.; Latinob G.; Latushkin S.; Lazanu S.; Lazanu I.; Lebel C.; Leinonen K.; Leroy C.; Li Z.; Lindstrom G.; Lindstrom L.; Linhart V.; Litovchenko A.; Litovchenko P.; Litvinov V.; Lo Giudice A.; Lozano M.; Luczynski Z.; Luukka P.; Macchiolo A.; Mainwood A.; Makarenko L.F.; Mandic' I.; Manfredotti C.; Marti i Garcia S.; Marunko S.; Mathieson K.; Mozzanti A.; Melone J.; Menichelli D.; Meroni C.; Messineo A.; Miglio S.; Mikuz? M.; Miyamoto J.; Moll M.; Monakhov E.; Moscatelli F.; Murin L.; Nava F.; Naoumovb D.; Nossarzewska-Orlowska E.; Nummela S.; Nysten J.; Olivero P.; Oshea V.; Palviainen T.; Paolini C.; Parkes C.; Passeri D.; Pein U.; Pellegrini G.; Perera L.; Petasecca M.; Piatkowski B.; Piemonte C.; Pignatel G.U.; Pinho N.; Pintilie I.; Pintilie L.; Polivtsev L.; Polozov P.; Popa A.I.; Popule J.; Pospisil S.; Pucker G.; Radicci V.; Raf?´J.M.; Ragusa F.; Rahman M.; Rando R.; Roeder R.; Rohe T.; Ronchin S.; Rott C.; Roy P.; Roy A.; Ruzin A.; Ryazanov A.; Sadrozinskic H.F.W.; Sakalauskas S.; Scaringella M.; Schiavulli L.; Schnetzer S.; Schummc B.; Sciortino S.; Scorzoni A. ; Segneri G.; Seidelb S.; Seidenc A.; Sellberg G.; Sellin P.; Sentenac D.; Shipsey I.; Sicho P.; Sloan T.; Solar M.; Son S.; Sopko B.; Spencerc N.; Stahl J.; Stavitski I.; Stolze D.; Stone R.; Storasta J.; Strokan N.; Strupinski W.; Sudzius M.; Surmal B.; Suuronen J.; Suvorov A.; Svensson B.G.; Tipton P.; Tomasek M.; Troncon C.; Tsvetkov A.; Tuominen E.; Tuovinen E.; Tuuva T.; Tylchin M.; Uebersee H.; Uher J.; Ullan M.; Vaitkus J.V.; Vanni P.; Velthuis J.; Verzellesi G.; Verbitskaya E.; Vrba V.; Wagner G.; Wilhelm I.; Worm S.; Wright V.; Wunstorf R.; Zabierowski P.; Zaluzhny A.; Zavrtanik M.; Zen M.; Zhukov V.; Zorzi N. (literal)
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- a-INFN Firenze, University of Florence, Italy
b-Department of Physics, University of Exeter, Exeter EX4 4QL, United Kingdom
c-Department of Physics & Astronomy, Glasgow University, Glasgow, UK
d-Russian Research Center ''Kurchatov Institute'', Moscow, Russia
e-Physics Department/Physical Electronics, University of Oslo, Oslo, Norway
f-Department of Physics, University of Liverpool, United Kingdom
g-Department of Physics, INFN and University of Milano, Milano, Italy
h-Experimental Particle Physics Group, Syracuse University, Syracuse, USA
i-Institut de Physique Nucle´aire, Universite´ catholique de Louvain, Louvain-la-Neuve, Belgium
j-SINTEF Electronics and Cybernetics Microsystems P.O. Box 124, Blindern, N-0314 Oslo, Norway
k-Radiation Physic Departments, Institute for Nuclear Research of the Academy of Sciences of Ukraine
l-Institute of Electronic Materials Technology, Warszawa, Poland
m-I.N.F.N. and Universita` di Perugia, Italy
n-Dipartimento di Fisica and INFN, Sezione di Padova, Italy
o-University of Rochester, NY, USA
p-Purdue University, USA
q-State Scientific Center of Russian Federation, Institute for Theoretical and Experimental Physics, Moscow, Russia
r-Universita´ di Pisa and INFN sez. di Pisa, Italy
s-ITC-IRST, Microsystems Division, Povo, Trento, Italy
t-Universita di Trieste & I.N.F.N.-Sezione di Trieste, Italy
u-Department of Physics, Lancaster University, Lancaster, United Kingdom
v-Czech Technical University in Prague, Czech Republic
w-Institute for Experimental Physics, University of Hamburg, Germany
x-Department of Physics and Astronomy, University of Sheffield, Sheffield, UK
y-Centro Nacional de Microelectro´nica (IMB-CNM, CSIC), Barcelona, Spain
z-Joz?ef Stefan Institute and Department of Physics, University of Ljubljana, Ljubljana, Slovenia
aa-Dipartimento di Fisica-Universita` di Modena e Reggio Emilia, Italy
bb-Charles University Prague, Czech Republic
cc-CERN, Geneva, Switzerland
dd-Fermilab, USA
ee-Dipartimento Interateneo di Fisica & INFN--Bari, Italy
ff-University of Karlsruhe, Institut fuer Experimentelle Kernphysik, Karlsruhe, Germany
gg-Ioffe Phisico-Technical Institute of Russian Academy of Sciences, St. Petersburg, Russia
hh-Experimental Physics Department, University of Turin, Italy
ii-Physics Department, Kings College London, United Kingdom
jj-Groupe de la Physique des Particules, Universite´ de Montreal, Canada
kk-IFIC, Joint Research Institute of CSIC and Universitat de Valencia-Estudi General, Valencia, Spain
ll-Institute of Materials Science and Applied Research, Vilnius University, Vilnius, Lithuania
mm-Universitaet Dortmund, Lehrstuhl Experimentelle Physik IV, Dortmund, Germany
nn-Tel Aviv University, Israel
oo-Helsinki Institute of Physics, Helsinki, Finland
pp-Paul Scherrer Institut, Laboratory for Particle Physics, Villigen, Switzerland
qq-Brookhaven National Laboratory, Upton, NY, USA
rr-Department of Solid State Physics, University of Lund, Sweden
ss-National Institute for Materials Physics, Bucharest, Magurele, Romania
tt-University of Bucharest, Romania
uu-Department of Electrical Engineering, Lappeenranta University of Technology, Lappeenranta, Finland
vv-Belarusian State University, Minsk, Belarus
ww-CiS Institut fu¨r Mikrosensorik gGmbH, Erfurt, Germany
xx-Rutgers University, Piscataway, New Jersey, USA
yy-Department of Physics, University of Surrey, Guildford, United Kingdom
zz-Institute of Physics, Academy of Sciences of the Czech Republic, Praha, Czech Republic
aaa-University of Bologna, Italy
bbb-University of New Mexico, NM, USA
ccc-SCIPP, University of California, Santa Cruz, CA, USA
ddd-Institut fu¨r Kristallzu¨chtung, Berlin, Germany (literal)
- Titolo
- Radiation-hard semiconductor detectors for SuperLHC (literal)
- Abstract
- An option of increasing the luminosity of the Large Hadron Collider (LHC) at CERN to 10^35 cm^(- 2) s(- 1) has been envisaged to extend the physics reach of the machine. An efficient tracking down to a few centimetres from the interaction point will be required to exploit the physics potential of the upgraded LHC. As a consequence, the semiconductor detectors close to the interaction region will receive severe doses of fast hadron irradiation and the inner tracker detectors will need to survive fast hadron fluences of up to above 1016 cm 2. The CERN-RD50 project ''Development of Radiation Hard Semiconductor Devices for Very High Luminosity Colliders'' has been established in 2002 to explore detector materials and technologies that will allow to operate devices up to, or beyond, this limit.
The strategies followed by RD50 to enhance the radiation tolerance include the development of new or defect engineered detector materials (SiC, GaN, Czochralski and epitaxial silicon, oxygen enriched Float Zone silicon), the improvement of present detector designs and the understanding of the microscopic defects causing the degradation of the irradiated detectors. The latest advancements within the RD50 collaboration on radiation hard semiconductor detectors will be reviewed and discussed in this work. (literal)
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