Browsing by Subject "Delta Resonance"
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Item Energy Dependence Analysis of Neutrino-Nucleus Interactions in Scintillator for MINERvA(2023-06) Srivastava, AsitThis thesis is on the intrinsic energy dependence in neutrino-nucleus interaction models, especially quasielastic scattering and 2p2h process, and the implications for understanding data from MINERvA, NOvA, and DUNE. Neutrino-nucleus interactions are modeled using five structure functions, W1, W2, W3, W4 and W5, and each structure function contributes differently to the energy dependence once it enters the cross-section calculations. The energy independent term in the calculations contains only W2 and the next lower order term (of the order 1/E) contains W3 also. In this thesis, we show that W2 is good enough to describe MINERvA data and energy dependence coming from the cross-section directly is small. However, W3 will be significant for lower energy experiments such as NOvA and DUNE (especially at and below the oscillation maximum). We have also developed a method to extract structure functions directly from MINERvA data though we find that systematic uncertainties present in the data are too big to successfully determine 1/E Term. In addition to this, we have applied muon angle cuts on MINERvA data and MC, which have their own energy dependent effects. An apparent energy dependent discrepancy comes from known shortcomings especially in the pion production model. Finally, because the energy dependence analysis has similarities to the low-nu method, we have evaluated discrepancies between the data and MC in light of different flux constraint techniques. The results suggest including MINERvA’s low-nu method constraint is an improvement.