6533b7d4fe1ef96bd1262816

RESEARCH PRODUCT

The optical instrumentation of the ATLAS Tile Calorimeter

Irakli MinashviliX. AndresenX. AndresenE. HigonR. DowningMarina CobalM. TischenkoA. LupiAmir FarbinAmir FarbinOscar BlanchEvgeny StarchenkoN. D. TopilinN.a. RussakovichFukun TangMichal SukStanislav TokárDavide CostanzoI. HruskaM. SimonyanMario DavidZ. ZenonosA. S. CerqueiraJose TorresO. GildemeisterG. BlanchotE. BergeaasM. J. ShochetClaudio SantoniDan PanteaVicente GonzálezM. LiablinJ. W. DawsonRupert LeitnerR. LefèvreDavid CalvetAlberto ValeroP. AdragnaD. G. UnderwoodM. VolpiJiri DolejsiSten HellmanA. HenriquesB. PalanCarlos SolansA. V. ZeninJemal KhubuaA. ManousakisJoão CarvalhoO. NorniellaV. SimaitisStanislav NemecekGiulio UsaiJ. PinaT. R. JunkPetr TasA. GomesA. MiagkovMário RamalhoS. O. HolmgrenMartine BosmanM. SosebeeP. BednarJ.m.g. Sá Da CostaArmen VartapetianL. NodulmanYu.f. LomakinN. HillJoao C. P. ReisT. ZenisD. ErredeA. MaioCarlos MarquesS. V. KopikovJ. GouveiaJ. PinhaoF. PodlyskiV. BatusovThomas LecompteSanda DitaGary DrakeV. M. RomanovA. RuizP. ShevtsovM. J. OregliaL. MirallesHrachya HakobyanP. V.m. Da SilvaM. CascellaCarlos CardeiraChristophe ClementChristophe ClementE. PodJ CosteloFernando MarroquimGerard MontarouAntonio FerrerCarmen MaidantchikMarzio NessiV. GilewskyEric FengI. NikitineE. DiakovRichard TeuscherA. AntonakiKaushik DeS. MaliukovJose FlixYuri KulchitskyF. VenturaF. SarriV. KonstantinovJalal AbdallahP. AmaralP. AmaralP. GrenierP. GrenierC. FerdiJ. E. PilcherMatteo Cavalli-sforzaJ. ProudfootO. SaltóP. SpeckmeyerX. PortellJiang LiP. KrivkovaA. N. SissakianB. Di GirolamoC. BohmJosé Paulo SantosF. CogswellStefan ValkarA. OnofreV. GiangiobbeV. BoldeaB. ZilkaR. AlvesIvan SykoraJ. HustonF. MartinF. MartinJ. BudagovL. LovasK. Jon-andA. N. KaryukhinJ. SilvaSerban ConstantinescuJ. SjoelinP. LourtieYu. ZaytsevA. AnanievF. S. MerrittN. P. GollubMilos LokajicekV. J. GuarinoA PereiraTomas DavidekTomas DavidekC. VellidisCalin AlexaE. MazzoniM. RamstedtV. FlaminioV. GiakoumopoulouAlexander SolodkovFilippo BosiPavel StarovoitovJoaquin PovedaT. Del PreteM. HurwitzL. P. SaysR. StanekV. GardeJ. KlerebornP. RoyTancredi CarliJoao SeixasC. BrombergK. GellerstedtC. BiscaratJ.a. VallsN. ShalandaDimitrios FassouliotisM.v. CastilloFrancois VazeilleC. GuicheneyMichael HaneyO. SolovianovL. E. PriceNikos GiokarisIrene VichouJoao SaraivaIlias EfthymiopoulosIacopo VivarelliY. A. KurochkinA. GuptaB. SelldenZdenek DolezalPolina KuzhirA. DottiE. FullanaFrancesco SpanòK. J. AndersonV. V. LapinS. ErredeL. PribylAndrew WhiteVincenzo CavasinniR. J. MillerDominique PallinI. Jen-la PlanteIlya KorolkovR. A. RichardsP. RosnetA. B. FenyukJ. SchlerethChiara RodaS ZenzPaolo FrancavillaV. RumiantsauH. SandersG. SchlagerA. M. ZaitsevB.c. FerreiraPh GrisB. SalvachuaEnrique SanchisL. Raposeiro

subject

PhysicsPhysics::Instrumentation and Detectorsbusiness.industryOptical instrumentationATLAS experimentScintillatorCentral regionCalorimeterNuclear physicsTile calorimeterOpticsmedicine.anatomical_structureAtlas (anatomy)Scintillation countermedicineHigh Energy Physics::ExperimentDetectors and Experimental TechniquesbusinessInstrumentationMathematical Physics

description

The purpose of this Note is to describe the optical assembly procedure called here Optical Instrumentation and the quality tests conducted on the assembled units. Altogether, 65 Barrel (or LB) modules were constructed - including one spare - together with 129 Extended Barrel (EB) modules (including one spare). The LB modules were mechanically assembled at JINR (Dubna, Russia) and transported to CERN, where the optical instrumentation was performed with personnel contributed by several Institutes. The modules composing one of the two Extended Barrels (known as EBA) were mechanically assembled in the USA, and instrumented in two US locations (ANL, U. of Michigan), while the modules of the other Extended barrel (EBC) were assembled in Spain and instrumented at IFAE (Barcelona). Each of the EB modules includes a subassembly known as ITC that contributes to the hermeticity of the calorimeter; all ITCs were assembled at UTA (Texas), and mounted onto the module mechanical structures at the EB mechanical assembly locations. The Tile Calorimeter, covering the central region of the ATLAS experiment up to pseudorapidities of ±1.7, is a sampling device built with scintillating tiles that alternate with iron plates. The light is collected in wave-length shifting (WLS) fibers and is read out with photomultipliers. In the characteristic geometry of this calorimeter the tiles lie in planes perpendicular to the beams, resulting in a very simple and modular mechanical and optical layout. This paper focuses on the procedures applied in the optical instrumentation of the calorimeter, which involved the assembly of about 460,000 scintillator tiles and 550,000 WLS fibers. The outcome is a hadronic calorimeter that meets the ATLAS performance requirements, as shown in this paper.

yearjournalcountryeditionlanguage
2013-01-09
10.1088/1748-0221/8/01/p01005http://hdl.handle.net/11568/506071