Towards the global fit of the TMD gluon density in the proton from the LHC data

Abstract

We propose a new analytical expression for the Transverse Momentum Dependent (TMD, or unintegrated) gluon density in the proton. Essential phenomenological parameters are extracted from the LHC data on inclusive hadron production in pp collisions at low transverse momenta, pT 1~GeV. The latter are described in the framework of modified soft quark-gluon string model, where gluonic state and non-zero transverse momentum of partons inside the proton are taken into account. To determine the parameters important at moderate and large x we used measurements of inclusive b-jet and Higgs boson production at the LHC as well as latest HERA data on proton structure functions F2c(x, Q2) and F2b(x, Q2) and reduced cross sections σ redc(x,Q2) and σ redb(x,Q2). The Catani-Ciafaloni-Fiorani-Marchesini evolution equation is applied to extend the initial gluon distribution into the whole kinematical region. We have achieved simultaneous description of all considered processes with 2/d.o.f. = 2.2, thus moving forward to the global fit of TMD gluon density from collider data. The obtained TMD gluon distribution in a proton is available for public usage and implemented into the TMDlib package and Monte-Carlo event generator PEGASUS.

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