Speaker
Description
The existence of oscillating massive neutrinos poses a challenge to the standard model of particle physics (SM). Even standard oscillation theory cannot replicate the experimental results, such as the anomalies in the LSND and MiniBooNE data, pushing physicists to look for new alternatives, such as exploring physics Beyond the Standard Model (BSM). Utilizing a model involving Lorentz Invariance Violation (LIV) represents a possibility for understanding these phenomena. The fact that neutrinos are sensitive to measuring LIV is very relevant. To assess the numerical implications of a novel Hamiltonian introducing Lorentz-breaking parameters within the framework of the DUNE experiment, we employ the General Long Baseline Experiment Simulator (GLoBES) software. By modifying probability generators, we simulate the event count in the detector, focusing mainly on investigating the parameter phases from off-diagonal terms that conserve CPT symmetry while breaking Lorentz invariance.