LNS: MARIA BARBARO - MODELLING NEUTRINO-NUCLEUS SCATTERING 
 ELENCO COMPLETO 

DATA: 30-11-2018

LABORATORI NAZIONALI DEL SUD
The precise knowledge of neutrino-nucleus interactions in the GeV region is a crucial ingredient for the analysis of ongoing and future long-baseline neutrino oscillation experiments. This requires a consistent treatment of nuclear effects over a wide kinematical domain, going from the quasi-elastic to the deep-inelastic regime. In this talk I will give an overview of the current status and challengesof theoretical models, focussing in particular on the superscaling model, based on the connection between electron- and neutrino-scattering. The validation of the model against electron scattering data and the comparison with neutrino data from the MiniBooNE, T2K and MINERvA experiments will be shown and the possible implementation of the model in Monte Carlo event generators will be discussed.


 SITO COLLEGATO 
https://agenda.infn.it/conferenceDisplay.py?confId=17476

 EVENTI RECENTI 
12-12-2019: The charm and beauty of the Little Bang
12-12-2019: Circuit complexity and 2D bosonisation - Dongsheng Ge
12-12-2019: M. Tobar - Precision low energy experiments to test fundamental physics and search for dark matter
12-12-2019: MisuraCC3M@LNL: materiali superconduttivi
11-12-2019: Multiplicity and energy dependence of light charged particle production in ALICE at the LHC
11-12-2019: Double-Logarithmic contribution to Pomeron and application to the photon-photon scattering - Boris Ermolaev
10-12-2019: Dai spazio al tempo
10-12-2019: Machine Learning in High Energy Physics - Tommaso Boccali
09-12-2019: Visita ai laboratori della Sezione INFN di Trieste da parte di studenti del Liceo Scientifico dell' IIS Cattaneo-Dall'Aglio di Castelnovo ne' Monti (RE)
09-12-2019: Properties of nuclei in the N=Z=50 region investigated via multi-nucleon transfer reactions and lifetime measurements - Marco Siciliano

[Back]

 

 

 

Istituto Nazionale di Fisica Nucleare - Piazza dei Caprettari, 70 - 00186 Roma
tel. +39 066840031 - fax +39 0668307924 - email: presidenza@presid.infn.it

F.M. F.E.