Nonlinear k-factorization: a new paradigm for an in-nucleus hard QCD
Abstract
We review the origin, and salient features, of the breaking of the conventional linear k-factorization for an in-nucleus hard pQCD processes. A realization of the nonlinear k-factorization which emerges instead is shown to depend on color properties of the underlying pQCD subprocesses. We discuss the emerging universality classes and extend nonlinear k-factorization to AGK unitarity rules for the excitation of the target nucleus.
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