Adding two-body currents and updated axial form factors to a relativistic spectral function model increases predicted cross sections for neutrino-carbon scattering, with the LQCD+MINERvA fit overestimating data while the MINERvA-only fit gives a moderate rise and no configuration fits all datasets.
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2 Pith papers cite this work. Polarity classification is still indexing.
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Computes neutrino quasielastic cross sections on 12C via CDFM with effective mass m_N^*=0.8 m_N and two-nucleon emission, providing predictions for accelerator data.
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Two-body current and axial form factor effects in charged-current quasielastic neutrino-nucleus scattering within the NEUT event generator
Adding two-body currents and updated axial form factors to a relativistic spectral function model increases predicted cross sections for neutrino-carbon scattering, with the LQCD+MINERvA fit overestimating data while the MINERvA-only fit gives a moderate rise and no configuration fits all datasets.
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Charged-current quasielastic-like neutrino scattering from $^{12}$C in the coherent density fluctuation model with two-nucleon emission
Computes neutrino quasielastic cross sections on 12C via CDFM with effective mass m_N^*=0.8 m_N and two-nucleon emission, providing predictions for accelerator data.