The Mu2e crystal calorimeter
Atanov N, Budagov J, Cervelli F, Colao F, Cordelli M, Corradi G, Danè E, Davidov Y, Di Falco S, Diociaiuti E, Donati S, Donghia R, Echenard B, Giovannella S, Glagolev V, Grancagnolo F, Happacher F, Hitlin D, Martini M, Miscetti S, Miyashita T, Morescalchi L, Murat P, Pedreschi E, Pezzullo G, Porter F, Saputi A, Sarra I, Spinella F, Tassielli G. The Mu2e crystal calorimeter. Journal Of Instrumentation 2017, 12: p09017-p09017. DOI: 10.1088/1748-0221/12/09/p09017.Peer-Reviewed Original ResearchCharged lepton flavor violationNegative muonsNew physicsCharged lepton flavor violating processesLepton flavor violationMuon rest massNeutrino-less conversionProbe new physicsTwo-body decaysHigh energy collidersMono-energetic electronsStraw tube trackerCrystal electromagnetic calorimeterYears of runningFlavor violationMu2e detectorEnergy collidersMu2e experimentCosmic raysDetector solenoidRest massElectromagnetic calorimeterPulsed beamMu2eMuonComponents Qualification for a Possible use in the Mu2e Calorimeter Waveform Digitizer
Di Falco S, Donati S, Morescalchi L, Pedreschi E, Pezzullo G, Spinella F. Components Qualification for a Possible use in the Mu2e Calorimeter Waveform Digitizer. Journal Of Instrumentation 2017, 12: c03088-c03088. DOI: 10.1088/1748-0221/12/03/c03088.Peer-Reviewed Original ResearchMagnetic fieldWaveform digitizerCrystal electromagnetic calorimeterHigh magnetic fieldsCoulomb fieldMu2e experimentStraw Tube TrackerElectromagnetic calorimeterRadiation hardnessParticle fluxQualification campaignHarsh experimental conditionsMuonsInitial rough estimateDigital electronicsHigh fluxComponent qualificationQualification procedureCommercial devicesFlux simulationsFirst prototypeFieldElectronsNeutronsExperimental results