6533b870fe1ef96bd12cf351
RESEARCH PRODUCT
Radiation-hard semiconductor detectors for SuperLHC
Phillip AllportD. SentenacA. BrzozowskiPeter KodysA. V. KarpovZdenek DolezalClaus GoesslingM SudziusT. J. BrodbeckF. HaulerM. TomášekW. R. CunninghamT. LariE KalininaS AssouakJ. MiyamotoDonato CreanzaJosé CoutinhoJ AdeyMiguel UllanF. FizzottiNicola ZorziEduard MonakhovA. RoyK. LeinonenMats KlevermanAndrew IvanovV KazlauskieneMauro CitterioJ. E. GarcíanavarroL.i. MurinGino BollaDaniela BortolettoP ZablerowskiVladimir CindroTuure TuuvaStanislav PospisilClara TronconV KhivrichSorina LazanuA MozzantiS FranchenkoB. SopkoGeorg PuckerN. PinhoI. WilhelmR. ColucciaG. M. BileiP. BuhmannMarina ArtusoR. WunstorfGiulio PellegriniT.a.g. EberleinJ. BrozG. LindströmTilman RoheE. GrigorievMara BruzziJ. StorastaJ.j. VelthuisJonathan P. GossIan ShipseyJ. GuskovIan DawsonReiner KlingenbergLucian PintilieB.k. JonesL. PereraSimon KwanA KarpenkoT. HorazdovskyV. BoisvertB. G. SvenssonA GrozaE BaranovaM. HornS. SakalauskasW. De BoerA. ChilingarovV GolovineBruce SchummP. VanniIoana PintilieJ SuuronenE. BorchiV. RadicciVal O'sheaManuel LozanoA LitovchenkoL. JungermannG.u. PignatelValery ZhukovGianluigi CasseA. SeidenKarl GillC. ParkesAlexander GrilloSilvio SciortinoEugenijus GaubasP. GregoriGiovanni VerzellesiPetr SichoJ. PopuleP. RoyGiovanni AlfieriV. KhomenkovU. PeinAlberto MessineoG. BondarenkoKati Lassila-periniEsa TuovinenJ. J. MeloneR. RoederA BrukhanovEija TuominenSm GarciaA. ZaluzhnyRoland HorisbergerS. SonDario BiselloA SuvorovDevis ContaratoRichard BatesK. GioloRobert StoneA.i. RyazanovR. JonesA. BarczP LitovchenkoThomas FerbelGregor KrambergerG. GrégoireV LitvinovJaakko HärkönenE. M. VerbitskayaC. PaoliniA KowalikP. KaminskiA. HoudayerL.i. BarabashG. LatinoS.f. BiagiAndrea ScorzoniL. BosisioEttore FocardiS. MarunkoC. JoramStefano LagomarsinoFrancesca CampabadalL PolivtsevMarko MikuzB PiatkowskiA. PopaJ. StahlF. HönnigerF GamazH. F.w. SadrozinskiA. MacchioloL DobrzanskiC. LebelI. StavitskiG. SegneriM. ZavrtanikDavid MenichelliMichael SolarAlberto Francesco BasileFilippo NavaZ. LuczynskiAlison MainwoodCarmen GarcíaA DolgolenkoLeonid MakarenkoAndrej Yu. KuznetsovG. SellbergP AlexandrovAndrew BlueWlodek StrupinskiSteve SchnetzerAlexander DierlammM KozodaevMaurice GlaserS. KorjenevskiB. S. AvsetPaul TiptonM. De PalmaFrancesco MoscatelliA GouldwellV LastovetskyA. TsvetkovP. DervanS. LatushkinCraig ButtarP. CollinsMichael MollLaura BorrelloS. MiglioMarco PetaseccaVladimír LinhartS. WormShusaku HayamaR HardingJ. NystenE. FortonD. ChrenG.j. WagnerSg SevillaZ. LiIgor MandićO. KraselR. DeminaClaude LeroyLennart LindströmChiara MeroniE. Nossarzewska-orlowskaP PolozovLuigi SchiavulliKeith MathiesonV VrbaC. GrigsonC. ManfredottiT. J. SloanC. J. FallM. BudaA HrubanMaurizio BoscardinR. KozlowskiPanja-riina LuukkaClaudio PiemonteT. J. V. BowcockMonica ScaringellaD. CampbellN StrokanGareth M. HughesI. IlyashenkoV CvetkovEckhart FretwurstV. KazukauskasA. Lo GiudiceJoan Marc RafiF. FasoloCeleste FletaL. HaddadKlaus IrmscherK JarasiunasCarsten RottBenjamin HourahineS. NummelaM. RahmanPaolo OliveroDaniele PasseriG.-f. Dalla BettaGavin DaviesMh GenestB. SurmaMartin HoeferkampN. E. BelovaI. V. GorelovA. Al-ajiliPaul J. SellinJ. VaitkusT JinIonel LazanuFrancesco RagusaT PalviainenRiccardo RandoA. AndreazzaZ. KohoutM. TylchinJ. KiersteadMario ZenV. K. EreminD. StolzeA. CandeloriAnna CavalliniJosef UherV. WrightJ. Klaiber-lodewigsB BlumenauS. DittongoSally SeidelN. SpencerSabina RonchinH. UeberseeArie RuzinD. Naoumovsubject
Nuclear and High Energy Physicsradiation hard semiconductorsPhysics::Instrumentation and DetectorsSemiconductor detectorsRadiation Detector; LHCradiation hardness01 natural sciencesDefect engineeringSuper-LHCRadiation damageradiation detectorssilicon detectors0103 physical sciencesRadiation damageSuperLHCSilicon detectors; LHC; RD50 collaboration; radiation hardnessInstrumentationRadiation hardeningRadiation hardness010302 applied physicsPhysicsRadiation damage; Semiconductor detectors; Silicon particle detectors; Defect engineering; SLHC; Super-LHCLuminosity (scattering theory)Large Hadron ColliderRadiation DetectorInteraction pointRD50 collaboration010308 nuclear & particles physicsbusiness.industrySLHCDetectorRadiation hardness; silicon detectorsSemiconductor deviceSemiconductor detectorSilicon particle detectorsOptoelectronicsSilicon detectorsHigh Energy Physics::ExperimentLHCbusinessdescription
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.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2005-04-01 |