2020
The Mu2e e.m. Calorimeter: Crystals and SiPMs Production Status
Atanov N, Baranov V, Budagov J, Caiulo D, Cervelli F, Colao F, Cordelli M, Corradi M, Davydov 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, Raffaelli F, Ricci M, Saputi A, Sarra I, Spinella F, Tassielli G, Tereshchenko V, Usubov Z, Vasilyev I, Zhu R. The Mu2e e.m. Calorimeter: Crystals and SiPMs Production Status. IEEE Transactions On Nuclear Science 2020, 67: 978-982. DOI: 10.1109/tns.2020.2988422.Peer-Reviewed Original ResearchCrystal readoutExcellent particle identification capabilitiesParticle identification capabilitiesNeutrino-less conversionTrack reconstruction capabilityBeam Test FacilityCosmic raysEnergy resolutionMu2e experimentLarge acceptanceElectromagnetic calorimeterSilicon photomultipliersNegative muonsPosition resolutionLepton flavorAluminum nucleiTime resolutionCalorimeter designMm2 dimensionsLarge-scale prototypeIdentification capabilityMeVElectronsReconstruction capabilitiesReadout
2018
Final design and current status of the Mu2e crystal calorimeter
Atanov N, Baranov V, Budagov J, Cervelli F, Colao F, Diociaiuti E, Cordelli M, Corradi G, Davydov Y, Donghia R, Di Falco S, Echenard B, Morescalchi L, 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, Raffaelli F, Ricci M, Saputi A, Sarra I, Spinella F, Tassielli G, Tereshchenko V, Zhu R. Final design and current status of the Mu2e crystal calorimeter. 2018, 00: 1-4. DOI: 10.1109/nssmic.2018.8824316.Peer-Reviewed Original ResearchMu2e experimentNeutrino-less conversionMono-energetic electronsSingle event sensitivityFront-end electronicsRest massCrystal calorimeterCalorimeter prototypeParticle identificationLaboratory searchesSilicon photomultipliersNegative muonsAluminum nucleiCsI crystalsEvent sensitivityOrders of magnitudeElectronsPrevious experimentsCrystalsCalorimeterMuonsINFNPhotomultipliersDetectorPhotosensorsThe Mu2e undoped CsI crystal calorimeter
Atanov N, Baranov V, Budagov J, Cervelli F, Colao F, Cordelli M, Corradi G, Davydov 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, Raffaelli F, Ricci M, Saputi A, Sarra I, Spinella F, Tassielli G, Tereshchenko V, Usubov Z, Zhu R. The Mu2e undoped CsI crystal calorimeter. Journal Of Instrumentation 2018, 13: c02037-c02037. DOI: 10.1088/1748-0221/13/02/c02037.Peer-Reviewed Original ResearchMu2e experimentExcellent particle identification capabilitiesParticle identification capabilitiesPure CsI crystalsAtomic fieldCosmic raysCrystal calorimeterEnergy resolutionElectron beamElectromagnetic calorimeterReadout electronicsCsI crystalsSiPM arrayTrack reconstructionIdentification capabilitySiPMsCrystalsSmall-scale prototypeCalorimeterMu2eMuonsFrascatiScale prototypeElectronsFermilab
2017
Components 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
2016
Design and status of the Mu2e electromagnetic calorimeter
Atanov N, Baranov V, Budagov J, Carosi R, Cervelli F, Colao F, Cordelli M, Corradi G, Dané E, Davydov Y, Di Falco S, Donati S, Donghia R, Echenard B, Flood K, Giovannella S, Glagolev V, Grancagnolo F, Happacher F, Hitlin D, Martini M, Miscetti S, Miyashita T, Morescalchi L, Murat P, Pasciuto D, Pezzullo G, Porter F, Saputi A, Sarra I, Soleti S, Spinella F, Tassielli G, Tereshchenko V, Usubov Z, Zhu R. Design and status of the Mu2e electromagnetic calorimeter. Nuclear Instruments And Methods In Physics Research Section A Accelerators Spectrometers Detectors And Associated Equipment 2016, 824: 695-698. DOI: 10.1016/j.nima.2015.09.074.Peer-Reviewed Original ResearchAvalanche photodiodesCosmic ray veto systemPowerful particle identificationSingle event sensitivityNeutrinoless conversionMonoenergetic electronsCrystal calorimeterEnergy resolutionVeto systemMu2e experimentParticle identificationElectromagnetic calorimeterNegative muonsData takingPrecision trackerBackground tracksBaF2 crystalsTime resolutionFinal stateTrack reconstructionCalorimeter designEvent sensitivityElectronsCrystal matrixSolenoid
2015
Progress status for the Mu2e calorimeter system
Pezzullo G, Budagov J, Carosi R, Cervelli F, Cheng C, Cordelli M, Corradi G, Davydov Y, Echenard B, Giovannella S, Glagolev V, Happacher F, Hitlin D, Luca A, Martini M, Miscetti S, Murat P, Ongmonkolkul P, Porter F, Saputi A, Sarra I, Spinella F, Stomaci V, Tassielli G. Progress status for the Mu2e calorimeter system. Journal Of Physics Conference Series 2015, 587: 012047. DOI: 10.1088/1742-6596/587/1/012047.Peer-Reviewed Original ResearchGood energy resolutionLarge area APDsAxial magnetic fieldMonochromatic electronsNeutrinoless conversionRest massEnergy resolutionConversion electronsMu2e experimentParticle identificationLarge acceptanceNegative muonsPosition resolutionLepton flavorMagnetic fieldBaF2 crystalsHigh Level TriggerTracker systemElectronsCalorimeter systemInner radiusLevel triggerCrystalsCalorimeterMuons
2014
Cosmic background rejection by means of the calorimeter in the Mu2e experiment at Fermilab
Pezzullo G, Murat P, Sarra I, Lucà A, group M. Cosmic background rejection by means of the calorimeter in the Mu2e experiment at Fermilab. Nuclear And Particle Physics Proceedings 2014, 248: 143-145. DOI: 10.1016/j.nuclphysbps.2014.02.030.Peer-Reviewed Original ResearchThe LYSO crystal calorimeter for the Mu2e experiment
Pezzullo G, Budagov J, Carosi R, Cervelli F, Cheng C, Cordelli M, Corradi G, Davydov Y, Echenard B, Giovannella S, Glagolev V, Happacher F, Hitlin D, Luca A, Martini M, Miscetti S, Murat P, Ongmonkolkul P, Porter F, Saputi A, Sarra I, Spinella F, Stomaci V, Tassielli G. The LYSO crystal calorimeter for the Mu2e experiment. Journal Of Instrumentation 2014, 9: c03018-c03018. DOI: 10.1088/1748-0221/9/03/c03018.Peer-Reviewed Original ResearchElectromagnetic calorimeterMu2e experimentNeutrino-less conversionElectron momentumElectron energyMagnetic spectrometerCrystal calorimeterDetector apparatusAluminum nucleiIndependent measurementsCandidate tracksUpper limitMu2eMuonsElectronsFermilabC.L.CalorimeterMeasurementsSpectrometerMomentumEnergyPresent resultsNucleusExperiments
2013
The calorimeter project for the Mu2e experiment
Budagov J, Carosi R, Cervelli F, Cheng C, Cordelli M, Davydov Y, Downie E, Echenard B, Giovannella S, Glagolev V, Happacher F, Hitlin D, Lucà A, Miscetti S, Ongmonkolkul P, Onorato G, Otte P, Pezzullo G, Pileggi G, Porter F, Saputi A, Sarra I, Tassielli G, Thomas A. The calorimeter project for the Mu2e experiment. Nuclear Instruments And Methods In Physics Research Section A Accelerators Spectrometers Detectors And Associated Equipment 2013, 718: 56-59. DOI: 10.1016/j.nima.2012.11.177.Peer-Reviewed Original ResearchMu2e experimentHigh radiation dose environmentAxial magnetic fieldYears of runningMonochromatic electronsNeutrinoless conversionMomentum determinationRest massCrystal calorimeterPhoton facilityConversion electronsCalorimeter prototypePhoton beamsNegative muonsVacuum enclosureLepton flavorMagnetic fieldMuonsPotential backgroundElectronsStrong suppressionBeamTracker systemIndependent triggersFermilab