Challenges to the Good-Walker paradigm in coherent and incoherent photoproduction

Abstract

High-energy vector meson photoproduction is an important tool for studying the partonic structure of matter at low Bjorken-x. In the Good-Walker (GW) paradigm, the cross-section dσ/dt for coherent production of vector mesons or other final states, depends the average transverse distribution of gluons, while the incoherent cross-section depends on fluctuations in the nuclear structure, due to variations in nucleon positions, and/or gluonic hot spots. However, predictions of the the GW paradigm seemingly conflict with data from multiple experiments which observe coherent production of vector mesons accompanied by nuclear excitation, or in peripheral relativistic heavy-ion collisions. These data are consistent with a simpler, semi-classical approach. We will discuss this contradiction and explore how and why GW fails. We will also contrast the significant differences in incoherent photoproduction on 197Au and 208Pb targets in the GW approach with the much smaller expected differences in their low-x gluon content.