Abstract
We present a phenomenological model of the quark-hadron transition in neutrino-nucleon scattering. Using recently extracted weak nucleon transition form factors, we investigate the extent to which local and global quark-hadron duality is applicable in the neutrino ${F}_{1},{F}_{2}$, and ${F}_{3}$ structure functions and contrast this with duality in electron scattering. Our findings suggest that duality works relatively well for neutrino-nucleon scattering for the ${F}_{2}$ and ${F}_{3}$ structure functions but not as well for ${F}_{1}$. We also calculate the quasielastic, resonance, and deep inelastic contributions to the Adler sum rule and find it to be satisfied to within 10% for $0.5\ensuremath{\lesssim}{Q}^{2}\ensuremath{\lesssim}2\phantom{\rule{0.3em}{0ex}}{\mathrm{GeV}}^{2}$.
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