Analytic derivation of the leading-order gluon distribution function G(x,Q2) = xg(x,Q2) from the proton structure function F2p(x,Q2)

Abstract

We derive a second-order linear differential equation for the leading order gluon distribution function G(x,Q2) = xg(x,Q2) which determines G(x,Q2) directly from the proton structure function F2p(x,Q2). This equation is derived from the leading order DGLAP evolution equation for F2p(x,Q2), and does not require knowledge of either the individual quark distributions or the gluon evolution equation. Given an analytic expression that successfully reproduces the known experimental data for F2p(x,Q2) in a domain xmin<=x<=xmax, Qmin2<=Q2<=Qmax2 of the Bjorken variable x and the virtuality Q2 in deep inelastic scattering, G(x,Q2) is uniquely determined in the same domain. We give the general solution and illustrate the method using the recently proposed Froissart bound type parametrization of F2p(x,Q2) of E. L. Berger, M. M. Block and C-I. Tan, PRL 98, 242001, (2007). Existing leading-order gluon distributions based on power-law description of individual parton distributions agree roughly with the new distributions for x>~10-3 as they should, but are much larger for x<~10-3.