TMD factorisation for diffractive jets in photon-nucleus interactions
Abstract
Using the colour dipole picture and the colour glass condensate effective theory, we study the diffractive production of two or three jets via coherent photon-nucleus interactions at high energy. We consider the hard regime where the photon virtuality and/or the transverse momenta of the produced jets are much larger than the saturation momentum of the nuclear target. We show that, despite this hardness, the leading-twist contributions are controlled by relatively large parton configurations, with transverse sizes , which undergo strong scattering and probe gluon saturation. For exclusive dijets, this implies that both final jets have semi-hard transverse momenta () and that one of them is aligned with the photon. The dominant contributions to the diffractive production of hard dijets () rather come from three-jet final states, which are very asymmetric and will be referred to as 2+1 jets: two of the jets are hard, while the third one is semi-hard. We demonstrate that the leading-twist contributions to both exclusive dijets and the diffractive production of 2+1 jets admit transverse-momentum dependent (TMD) factorisation, in terms of quark and gluon diffractive TMD distribution functions, for which we obtain explicit expressions from first principles. We show that the contribution of 2+1 jets to diffractive SIDIS (semi-inclusive deep inelastic scattering) takes the form of one step in the DGLAP evolution of the quark diffractive PDF.
Cite
@article{arxiv.2402.14748,
title = {TMD factorisation for diffractive jets in photon-nucleus interactions},
author = {S. Hauksson and E. Iancu and A. H. Mueller and D. N. Triantafyllopoulos and S. Y. Wei},
journal= {arXiv preprint arXiv:2402.14748},
year = {2024}
}
Comments
89 pages, 24 figures, 4 appendices