Jet quenching and scaling properties of medium-evolved gluon cascade in expanding media

Abstract

We present a study of the impact of the expansion of deconfined medium on single-gluon emission spectra and the jet suppression factor (QAA) within the BDMPS-Z formalism. These quantities are calculated for three types of media (static medium, exponentially decaying medium and Bjorken expanding medium). The distribution of medium-induced gluons and the jet QAA are calculated using the evaluation of in-medium evolution with splitting kernels derived from the gluon emission spectra. Scaling behavior of splitting kernels is derived for low-x and high-x regimes in the asymptote of large times and its impact on the resulting jet QAA is discussed. For the full phase space of the radiation, the scaling of jet QAA with an effective quenching parameter is presented.