LHC production of forward-center and forward-forward di-jets in the kt-factorization unintegrated parton distribution frameworks

Abstract

The present work is devoted to study the high-energy QCD events, such as the di-jet productions from proton-proton inelastic collisions at the LHC in the forward-center and the forward-forward configurations, using the unintegrated parton distribution functions (UPDF) in the kt-factorization framework. The UPDF of Kimber et. al. (KMR) and Martin et.al. (MRW) are generated in the leading order (LO) and next-to-leading order (NLO), using the Harland-Lang et al. (MMHT2014) PDF libraries. While working in the forward-center and the forward-forward rapidity sectors, one can probe the parton densities at very low longitudinal momentum fractions (x). Therefore, such a computation can provide a valuable test-field for these UPDF. We find very good agreement with the corresponding di-jet production data available from LHC experiments. On the other hand, as we have also stated in our previous works, (i.e. the protons longitudinal and transverse structure function as well as hadron-hadron LHC W/Z production), the present calculations based on the KMR prescriptions show a better agreement with the corresponding experimental data. This conclusion is achieved, due to the particular visualization of the angular ordering constraint (AOC), despite the fact that the LO-MRW and the NLO-MRW formalisms both employ better theoretical descriptions of the Dokshitzer-Gribov-Lipatov -Altarelli-Parisi (DGLAP) evolution equation, and hence are expected to produce better results. The form of the AOC in the KMR prescription automatically includes the re-summation of the higher-order ln(1/x) type contributions, i.e. the Balitski-Fadin-Kuraev-Lipatov (BFKL) logarithms, in the LO-DGLAP evolution equation.