Geometrical scaling of heavy-quark contributions in the low x region

Abstract

We describe the determination of the heavy quarks structure functions F2,LQQ with help of the scaling properties. We observe that the structure functions for inclusive charm and bottom production exhibits geometric scaling at low x. The geometrical scaling means that the heavy quark structure function is a function of only one dimensionless variable τQ2/Q2sat(x) including quark mass. These results are valid for any value of δ, being x-δ the behavior of the parton densities at low x. The determination of the heavy quark structure function is presented as a parameterization of the proton structure function F2(x,Q2) and its derivative. Analytical expressions for F2,LQQ in terms of the effective parameters of the parameterization of F2(x,Q2) ,with respect to the BDH and ASW models, are presented. To study the heavy quark production processes, we use the collinear results in DAS approach. Numerical calculations and comparison with HERA data demonstrate that the suggested method provides reliable F2QQ, Rcc and σQQ at low x in a wide range of the low absolute four-momentum transfers squared (4~GeV2<Q2<2000~GeV2). Also, in the HERA kinematic range, the ratio of F2cc/F2bb, F2cc/F2BDHM and F2bb/F2BDHM are obtained. Expanding the method to low and ultra low values of x can be considered in the process analysis of the LHeC and FCC-eh colliders.