Conveners
WG1+WG3
- Maja Olvegaard (Uppsala University (SE))
The poor knowledge of neutrino cross sections at the GeV scale is projected to be responsible for some of the leading sources of uncertainty in next-generation oscillation experiments. Building on the ideas and R&D from ENUBET and NuTAG, we present a proposal for the nuSCOPE experiment (see arXiv:2503.21589). nuSCOPE is a high-precision, short-baseline neutrino experiment at CERN that employs...
Long-baseline accelerator neutrino experiments rely on the neutrinos from the decays of hadrons produced in hadron-nucleus interactions. Uncertainties in the hadron production yields from these interactions dominate the neutrino flux uncertainties in these beams. This talk will highlight recent results from CERN’s SPS Heavy Ion and Neutrino Experiment (NA61/SHINE), which has produced...
The Tokai-to-Kamioka (T2K) experiment uses high intensity beams of neutrinos and anti-neutrinos produced at the Japan Proton Accelerator Research Complex (J-PARC) to measure neutrino oscillations over a baseline of 295 km, and search for evidence of CP violation. Neutrinos come from in-flight decays of charged hadrons produced from interactions of 30 GeV protons in a long graphite target. The...
Neutrino tagging is a new experimental approach for accelerator-based neutrino experiments. The method consists in associating a neutrino interaction with the meson decay (i.e. or ) in which the neutrino was originally produced. The properties of the neutrino can then be estimated kinematically from the decay incoming and outgoing charged particles. The reconstruction of these particles...
