Future long baseline neutrino experiments (Hyper-Kamiokande, DUNE) require an improved understanding of GeV-scale neutrino interaction models and cross sections. The proposed activity includes a phenomenological work on nuclear models to improve the description of final states at the T2K neutrino energies of about 600 MeV. This part will be based on University of Seville and the CERN group. The second part of the thesis (Padova) will be mostly focused on experimental aspects: the analysis of data collected with the ENUBET demonstrator in the context of producing high precision neutrino beams for the next generation experiments.

Future long baseline neutrino experiments (Hyper-Kamiokande, DUNE) require an improved understanding of GeV-scale neutrino interaction models and cross sections. The proposed activity includes a phenomenological work on nuclear models to improve the description of final states at the T2K neutrino energies of about 600 MeV. This part will be based on University of Seville and the CERN group. The second part of the thesis (Padova) will be mostly focused on experimental aspects: the analysis of data collected with the ENUBET demonstrator in the context of producing high precision neutrino beams for the next generation experiments.

Refinement of nuclear models and experimental tools for neutrino cross sections at the GeV scale

GACINO OLMEDO, ALEJANDRO NICOLAS
2023/2024

Abstract

Future long baseline neutrino experiments (Hyper-Kamiokande, DUNE) require an improved understanding of GeV-scale neutrino interaction models and cross sections. The proposed activity includes a phenomenological work on nuclear models to improve the description of final states at the T2K neutrino energies of about 600 MeV. This part will be based on University of Seville and the CERN group. The second part of the thesis (Padova) will be mostly focused on experimental aspects: the analysis of data collected with the ENUBET demonstrator in the context of producing high precision neutrino beams for the next generation experiments.
2023
Refinement of nuclear models and experimental tools for neutrino cross sections at the GeV scale
Future long baseline neutrino experiments (Hyper-Kamiokande, DUNE) require an improved understanding of GeV-scale neutrino interaction models and cross sections. The proposed activity includes a phenomenological work on nuclear models to improve the description of final states at the T2K neutrino energies of about 600 MeV. This part will be based on University of Seville and the CERN group. The second part of the thesis (Padova) will be mostly focused on experimental aspects: the analysis of data collected with the ENUBET demonstrator in the context of producing high precision neutrino beams for the next generation experiments.
Long-baseline exp
ENUBET
MC generators
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12608/70107