M
M. B. Barbaro
Researcher at University of Turin
Publications - 163
Citations - 2730
M. B. Barbaro is an academic researcher from University of Turin. The author has contributed to research in topics: Neutrino & Nucleon. The author has an hindex of 29, co-authored 163 publications receiving 2401 citations. Previous affiliations of M. B. Barbaro include Université Paris-Saclay & University of Seville.
Papers
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Journal ArticleDOI
NuSTEC White Paper: Status and challenges of neutrino–nucleus scattering
L. Alvarez-Ruso,M. Sajjad Athar,M. B. Barbaro,D. Cherdack,M. E. Christy,Pilar Coloma,T. W. Donnelly,Steve Dytman,A. de Gouvea,Richard Hill,Patrick Huber,Natalie Jachowicz,Teppei Katori,Andreas S. Kronfeld,Kendall Mahn,Marco Martini,J. G. Morfín,Juan Nieves,Gabriel Perdue,R. Petti,David G. Richards,Federico Sanchez,Toru Sato,Jan T. Sobczyk,G. P. Zeller +24 more
TL;DR: In this paper, the neutrino properties are modeled as a nuclear model and its theoretical uncertainties play an important role in interpreting every result, which is essential to every phase of experimental analyses.
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Using electron scattering superscaling to predict charge-changing neutrino cross sections in nuclei
TL;DR: In this article, a scaling analysis of few-GeV inclusive electron scattering from nuclei is extended to include not only quasielastic processes, but also the region where $\ensuremath{\rightarrow}$ excitation dominates.
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Charged-current neutrino-nucleus reactions within the superscaling meson-exchange current approach
TL;DR: In this article, a detailed study of charged-current neutrino-nucleus reactions in a fully relativistic framework and comparisons with recent experiments spanning an energy range from hundreds of MeV up to 100 GeV within the superscaling approach was presented.
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Meson-exchange currents and quasielastic antineutrino cross sections in the SuperScaling Approximation
TL;DR: It is shown that the impact of meson-exchange currents for charge-changing antineutrino reactions is much larger than in the neutrino case.
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Extensions of superscaling from relativistic mean field theory: The SuSAv2 model
TL;DR: In this article, the relativistic mean field (RMF) theory is applied to the quasielastic scaling functions computed within the superscaling approach (SuSA) model and an extension of the SuSA model based on these results is proposed.