Extending the Glauber-Sitenko diffraction model for H(d,p)X by including longitudinal momentum Qz and transverse p_perp effects yields a decrease in cross section with rising transverse momentum and a modest shift plus growth in the cross-section peak.
Effect of the Coulomb interaction in A(d,p) fragmentation
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abstract
In the framework of Glauber-Sitenko model we calculate contribution of Coulomb interaction in cross-section of A(d,p) reaction at high energy and zero angle. It is demonstrated that such effect significantly increases the differential cross section only at peak, where the proton momentum $p$ is near half of the deuteron momentum $p_d$ in lab. frame, $p \sim \frac12 p_d$. The Coulomb interaction do not change the results in the high momentum region, where quark effects should be taken into account.
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Inclusion of the Longitudinal Momentum-Transfer Component and Kinematic Factors in a diffraction approach for H(d,p)X Reactions
Extending the Glauber-Sitenko diffraction model for H(d,p)X by including longitudinal momentum Qz and transverse p_perp effects yields a decrease in cross section with rising transverse momentum and a modest shift plus growth in the cross-section peak.