The ENUBET project aims at demonstrating the feasibility of a monitored neutrino beam in which the measurement of associated charged leptons in the instrumented decay region of a conventional beam is used to constrain the neutrino flux to unprecedented precision (O(1%)). Large angle muons and positrons from kaon decays are detected on the decay tunnel walls equipped with a sampling calorimeter with longitudinal, radial and azimuthal segmentation. After a brief description of the ENUBET beamline and of the detectors employed in the lepton tagger, the analysis chain for the event reconstruction, the background suppression and the identification of positrons and muons will be described.
Pupilli, F., Acerbi, F., Angelis, I., Bonesini, M., Bramati, F., Branca, A., et al. (2022). Lepton reconstruction in the ENUBET tagger. In 22nd International Workshop on Neutrinos from Accelerators, NuFact 2021 Cagliari 6-11 September 2021 (pp.1-5). Trieste : Sissa Medialab Srl.
Lepton reconstruction in the ENUBET tagger
Bonesini M.;Bramati F.;Branca A.;Brizzolari C.;Brunetti G.;Delogu C.;Falcone A.;Lutsenko E.;Meazza L.;Parozzi E. G.;Tenti M.;Terranova F.Membro del Collaboration Group
;Torti M.;
2022
Abstract
The ENUBET project aims at demonstrating the feasibility of a monitored neutrino beam in which the measurement of associated charged leptons in the instrumented decay region of a conventional beam is used to constrain the neutrino flux to unprecedented precision (O(1%)). Large angle muons and positrons from kaon decays are detected on the decay tunnel walls equipped with a sampling calorimeter with longitudinal, radial and azimuthal segmentation. After a brief description of the ENUBET beamline and of the detectors employed in the lepton tagger, the analysis chain for the event reconstruction, the background suppression and the identification of positrons and muons will be described.
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