GiBUU Monte Carlo Simulation for Neutrino Oscillation Measurements - Leonidas Aliaga-Soplin ( University of Texas at Arlington)
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America/Los_Angeles
48/2-224 - Madrone (SLAC)
48/2-224 - Madrone
SLAC
28
Description
Neutrino oscillation experiments are central to advancing particle physics, providing critical insights into neutrino masses and physics beyond the Standard Model. Precision in these experiments, especially for the upcoming DUNE experiment, relies on accurate modeling of neutrino interactions, which is crucial for determining parameters like delta CP with high precision.
This seminar will focus on the integration of the GiBUU Monte Carlo simulation into the framework of neutrino oscillation analyses. GiBUU, originally developed for hadron-induced reactions, delivers a comprehensive and realistic description of neutrino interactions with nuclei that agrees well with recent measurements.
The presentation will cover key aspects of GiBUU's implementation and its applications in neutrino oscillation studies. By enhancing the understanding of neutrino interaction dynamics, GiBUU contributes to greater precision in oscillation parameter measurements, increasing the robustness and reliability of sensitivity in both current and future neutrino oscillation experiments.