6533b82cfe1ef96bd128ff43
RESEARCH PRODUCT
The ATLAS hadronic tile calorimeter: From construction toward-physics
Ilias EfthymiopoulosJose TorresDan PanteaJ. CasteloR. A. RichardsP. RosnetT. Le CompteA. B. FenyukRichard TeuscherS. MaliukovV. J. GuarinoMartine BosmanTomas DavidekJ A VallsA. AntonakiP. V.m. Da SilvaF. S. MerrittJemal KhubuaJemal KhubuaC. CuencaI. SatsunkevitchJ. PinaT. R. JunkCarlos MarquesJ. SchlerethF. SarriJ. E. PilcherPetr TasJiang LiPavel StarovoitovM. SosebeeT. ZenisP. ShevtsovChiara RodaS. O. HolmgrenF. DaudonV. BatusovDenis Oliveira DamazioHrachya HakobyanJ.m.l. AmengualC. BiscaratO. GildemeisterG. BlanchotVicente GonzálezA. HenriquesS. ErredeAlexander SolodkovR. LefèvreD. G. UnderwoodV. M. RomanovIacopo VivarelliFernando MarroquimL. PribylAndrew WhiteT. Del PreteS. BinetJosé Paulo SantosArmen VartapetianV. GrabskyZdenek DolezalJ. SilvaY. A. KurochkinP. RoyR. DowningJ. BudagovA. GuptaEvgeny StarchenkoJ. ProudfootMilos LokajicekF. PodlyskiSerban ConstantinescuCarmen MaidantchikM. VolpiK.j. AndP. KrivkovaM.c. SforzaAntonio FerrerCalin AlexaM. RamstedtV. RumiantsauB. Di GirolamoDimitrios FassouliotisG. SchlagerMark OregliaAmir FarbinJ. PovedaP. GrenierVincenzo CavasinniA. LupiO. NorniellaA. S. CerqueiraCarlos A. IglesiasL. E. PriceR. J. MillerD. ErredeFukun TangDavide CostanzoV. GiangiobbeC. GuicheneyMichael HaneyC. BohmSanda DitaFrancois VazeilleDominique PallinO. SolovianovVakhtang TsulaiaA. BogushMichal SukIrene VichouP. AdragnaStanislav TokárM. LembesiNikos GiokarisLawrence NodulmanV. SimaitisStanislav NemecekE. MazzoniPh GrisO. SaltoRupert LeitnerMario DavidH. SandersGerard MontarouM.v. CastilloA. MiagkovLuiz CalobaG. ReinmuthA. MaioM. HurwitzC. FerdiJ. HustonM. CrouauA. N. KaryukhinB. SelldenC. BrombergF. CogswellGiulio UsaiStefan ValkarV. GiakoumopoulouJ. KlerebornI. FedorkoV. BoldeaIvan SykoraPolina KuzhirA. M. ZaitsevMarzio NessiIlya KorolkovA. DottiE. FullanaN. RussakovichFrancesco SpanòK. J. AndersonJ. G. SaraivaJ. PinhaoN. D. TopilinL. MirallesVladimir VinogradovB. SalvachuaEnrique SanchisM. LiablinD. LambertE. HigonV. GilewskyX. PortellV. FlaminioIrakli MinashviliKaushik DeA. ZenineA. N. SissakianL. P. SaysA. OnofreV. GardeF. MartinA. ManousakisA. GomesP. BednarYu.f. LomakinM. J. ShochetClaudio SantoniDavid CalvetJiri DolejsiJoão CarvalhoR. ChadelasYuri KulchitskyYuri KulchitskyR. StanekJoao Seixassubject
Nuclear and High Energy PhysicsPhysics::Instrumentation and DetectorsMonte Carlo method02 engineering and technologyCalorimetryJet (particle physics)01 natural sciencesNuclear physicsAtlas (anatomy)0103 physical sciences0202 electrical engineering electronic engineering information engineeringmedicineCalibration[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]Point (geometry)[PHYS.PHYS.PHYS-INS-DET]Physics [physics]/Physics [physics]/Instrumentation and Detectors [physics.ins-det]Electrical and Electronic EngineeringAerospace engineeringPhysics010308 nuclear & particles physicsbusiness.industry020206 networking & telecommunicationsCalorimetermedicine.anatomical_structureNuclear Energy and Engineeringvisual_artvisual_art.visual_art_mediumHigh Energy Physics::ExperimentTilebusinessdescription
ATLAS; The Tile Calorimeter, which constitutes the central section of the ATLAS hadronic calorimeter, is a non-compensating sampling device made of iron and scintillating tiles. The construction phase of the calorimeter is nearly complete, and most of the effort now is directed toward the final assembly and commissioning in the underground experimental hall. The layout of the calorimeter and the tasks carried out during construction are described, first with a brief reminder of the requirements that drove the calorimeter design. During the last few years a comprehensive test-beam program has been followed in order to establish the calorimeter electromagnetic energy scale, to study its uniformity, and to compare real data to Monte Carlo simulation. The test-beam setup and first results from the data are described. During the test-beam period in 2004, lasting several months, data have been acquired with a complete slice of the central ATLAS calorimeter. The data collected in the test-beam are crucial in order to study algorithms for hadronic energy reconstruction using single particles. The generalization of these algorithms to reconstruct jet energies will be the starting point for numerous physics studies in which jets play a leading role. The results obtained in applying these algorithms to simulated di-jet events are given in the last section of the note.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2005-06-04 |