Dipion photoproduction and the Q2 evolution of the shape of the gold nucleus

Abstract

Coherent photoproduction of vector mesons is sensitive to the shape of the target nucleus, as probed at four-momentum scale Q2 (MV/2)2. Previously STAR presented a high-statistics measurement of dσc/dt for coherent π+π- photoproduction in ultra-peripheral gold-gold collisions, and made a two-dimensional Fourier-Bessel (Hanckel) transformation to give the transverse distribution of interactions in the nucleus. Here, we study how dσc/dt evolves with Q2. We divide the π+π- signal into three different mass (Q2) bins to measure how dσc/dt evolves with dipion mass. Furthermore, we find that the depth of the first diffractive minimum varies with pair mass. We perform a two-dimensional Fourier-Bessel transform to see how the effective transverse distribution of the interactions changes with decreasing pair mass. In the lowest mass bin, the nuclear profile is broader, which is consistent with expectations from saturation models.