A proposal to avoid the ambiguity in the identification of the scale energy parameter Q2 of the PDFs in the Z-production in eP-dis

Abstract

We discuss Z -production in the deep inelastic process e + P e + Z + X in the context of the Standard Model using the Parton Model. In contrast to the deep inelastic eP-scattering (e + P e + X), where the choice of Q2 is unambiguous, in this case is not clear since the momentum transfer square, at the quark level, depends on the reaction mechanism. Our aim in this work is to show that the total cross section depends strongly on the prescription used for the scale parameter Q2 and on a different option that we have taken for making the convolution of the parton distribution functions and the amplitude of the quark processes. We present results for the total cross section as a function of the total energy s of the system eP, in the range 300 ≤ s ≤ 1300 GeV. We find differences of up to 25\% in the rates of the total cross section for the different prescriptions that we have taken, for s ≈ 1300 GeV, which is the expected maximal total energy of the system eP to be reached at the LHeC. Taking an integrated luminosity of ab-1, such a difference (25\%) corresponds to ≈ 104 produced Z bosons. Finally, we propose to modify slightly the Parton Model in order to do a simple and practical prescription for the calculation without ambiguities of the Z-production in the deep inelastic eP scattering.