Universality (beyond leading log) of soft radiative corrections to q in p broadening and energy loss

Abstract

It has been known for many years that soft radiation can give potentially large double-logarithm corrections to p broadening of a high-energy particle traveling through QCD matter, but that this soft radiation correction can be absorbed into an effective value q eff for the medium p-broadening parameter q. Here "soft" means high energy compared to medium scales but soft compared to the original high-energy particle traveling through the medium. A similar situation arises in the case of soft corrections to hard splitting of a high-energy particle, such as hard ggg, where double logarithms can also be absorbed using the same effective q eff. In this paper, I study whether the same holds true for potentially large, subleading, *single*-logarthim corrections. The correspondence is more indirect for single logarithms, but I show (in the large-N c limit) that single logarithms from soft radiation in the case of p broadening also determine the single logarithms from soft radiative corrections to hard ggg splitting. Along the way, there is an interesting variation of the original BDMPS-Z calculation of splitting rates in the q approximation. I also discuss how, for soft-radiative corrections to hard splitting processes, there are two different types of " q eff" that come into play, which differ by "iπ" terms that multiply single logarithms.