Quark-Antiquark Energy Density Function applied to Di-Gauge Boson Production at the LHC

Abstract

In view of the start up of the 14 TeV pp Large Hadron Collider the quark anti-quark reactions leading to the final states W+W-, W+-Z0 and Z0Z0 are studied, in the frame workn of the Standard Model (SM), using helicity amplitudes. The differential and total cross sections are first evaluated in the parton-parton center of mass system. They are then transformed to their expected behavior in pp collisions through the parton-parton Energy Density Functions which are here derived from the known Parton Density Functions of the proton. In particular the single and joint longitudinal polarizations of the final state di-bosons are calculated. The effect on these reactions from the presence of s-channel heavy vector bosons, like the W' and Z', are evaluated to explore the possibility to utilize the gauge boson pair production as a probe for these 'Beyond the SM' phenomena.