Combining the small-x evolution and DGLAP for description of inclusive photon induced processes

Abstract

Interest in studying the inclusive photon induced processes of Deep-Inelastic Scattering (DIS) and Diffractive DIS (DDIS) at high energies includes their experimental investigation and thorough theoretical description. The conventional instrument for theoretical investigation of DIS at large x is DGLAP. It describes the Q2-evolution. Description of DIS in the small-x region requires accounting for the both Q2 and x -evolution at the same time. Combining DGLAP with total resummation of double logarithms of x and Q2, we present a description of structure function F1 at large Q2 and arbitrary x. Making use of the necessity of the shift of Q2 in order to regulate infrared singularities, we obtain an expression for F1 valid at arbitrary x and Q2. The obtained expressions coincide with the DLA expressions at small x and at the same time coincides with the DGLAP result at large x and large Q2. Accounting for virtualities k2 of the external partons allows us to obtain expressions for F1 in KT-Factorization, which are valid at arbitrary Q2 and arbitrary relations between Q2 and k2. Expressions for F1 in all types of QCD factorization exhibit the small-x asymptotics of the Pomeron type. This Pomeron is generated by the high-energy asymptotics of amplitudes of the 2 -> 2 parton-parton forward scattering. These amplitudes are calculated in DLA, so their asymptotics have nothing to do with the BFKL Pomeron. We demonstrate that the parton-parton amplitudes can be used in the DDIS models instead of BFKL Pomeron or combinations of hard and soft Pomerons at non-asymptotic energies. On the other hand, this modification automatically ensures the Pomerons asymptotics, which simplifies and makes more consistent theory of DDIS.