O. Benhar, S. Fantoni, G. I. Lykasov, U. Sukhatme
Published 2001-11-02, updated 2001-12-18Version 2
The production of pions emitted backward in inelastic neutrino-nucleus interactions is analyzed within the impulse approximation in the framework of the dual parton model. We focus on the $Q^2$-dependence of the multiplicity of negative pions, normalized to the total cross section of the reaction $\nu + A \to \mu + X$. The inclusion of planar (one-Reggeon exchange) and cylindrical (one-Pomeron exchange) graphs leads to a multiplicity that decreases as $Q^2$ increases, in agreement with recent measurements carried out at CERN by the NOMAD collaboration. A realistic treatment of the high momentum tail of the nucleon distribution in a nucleus also allows for a satisfactory description of the semi-inclusive spectrum of backward pions.
Comments: 15 pages, 4 figures
Journal: Phys.Lett. B527 (2002) 73-79
$η'$ photoproduction on the nucleons in the quark model
Total cross section for p-d breakup below 30 MeV
Scaling properties of the longitudinal and transversal asymmetries of the $\vec{n}\vec{d}$ total cross section
