The ENUBET collaboration is pursuing an R&D effort to develop and realize the first monitored neutrino beam. This new technique allows to set a tight constraint on the neutrino flux produced in conventional beams, and thus to measure neutrino cross sections with an unprecedented precision of O(1%). In this contribution the method being developed for the assessment of the systematics on the neutrino flux, before and after the constraint, is discussed. First results from a validation test on a toy-model is also presented.
Branca, A., Acerbi, F., Angelis, I., Bonesini, M., Bramati, F., Brizzolari, C., et al. (2022). Fluxes and systematics reduction with decay monitoring. In 22nd International Workshop on Neutrinos from Accelerators, NuFact 2021,Cagliari 6-11 September 2021 (pp.1-5). Trieste : Sissa Medialab Srl.
Fluxes and systematics reduction with decay monitoring
Branca A.;Bonesini M.;Bramati F.;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 collaboration is pursuing an R&D effort to develop and realize the first monitored neutrino beam. This new technique allows to set a tight constraint on the neutrino flux produced in conventional beams, and thus to measure neutrino cross sections with an unprecedented precision of O(1%). In this contribution the method being developed for the assessment of the systematics on the neutrino flux, before and after the constraint, is discussed. First results from a validation test on a toy-model is also presented.
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