Forward trijet production in proton–nucleus collisions
Résumé
Using the formalism of the light-cone wave function in perturbative QCD together with the hybrid factorization, we compute the cross-section for three particle production at forward rapidities in proton–nucleus collisions. We focus on the quark channel, in which the three produced partons — a quark accompanied by a gluon pair, or two quarks plus one antiquark — are all generated via two successive splittings starting with a quark that was originally collinear with the proton. The three partons are put on-shell by their scattering off the nuclear target, described as a Lorentz-contracted “shockwave”. The three-parton component of the quark light-cone wave function that we compute on this occasion is also an ingredient for other interesting calculations, like the next-to-leading order correction to the cross-section for the production of a pair of jets.
Mots clés
Color glass condensate
Proton–nucleus collisions
Multiparticle production
wave function: light cone
nucleus: target
quantum chromodynamics: perturbation theory
higher-order: 1
p nucleus: scattering
scattering: small-angle
factorization
splitting
collinear
quark
antiquark
rapidity
gluon
jet: multiple production