Speaker
Description
Fundamental neutrino physics experiments at GeV scale struggle with large uncertainties in neutrino interaction cross sections, especially when statistical uncertainty for next generation experiments will no longer be the dominant uncertainty. The nuSCOPE collaboration (previously known with the working name of SBN@CERN), born from merger of ENUBET and NuTag collaborations, is trying to tackle this issue by desinging a beamline which leverages two novel technologies, those of monitored (ENUBET) and tagged (NuTag) neutrino beams. This beamline enables flux monitoring at the percent level and provides neutrino energy measurement independant of final state particle reconstruction at the detector. nuSCOPE collaboration is exploring the potential implementation of such a beamline at CERN. This poster focuses on the work of the ENUBET collaboration and the monitoring of the charged leptons produced in the decay tunnel with the goal of estimating the neutrino flux. An instrumented decay tunnel prototype of ENUBET design was built and its performance tested multiple times using a charged-particle beam at the CERN PS accelerator.
