Nuclear deformation effects in photoproduction of mesons in ultraperipheral isobaric collisions
Abstract
We have investigated the 0 meson photoproduction in ultraperipheral isobaric collisions between 4496Ru+4496Ru and 4096Zr+4096Zr at sNN=200 GeV, employing the dipole model with the equivalent photon approximation. By implementing the Woods-Saxon distribution to represent the nuclear mass density, which is derived from density functional theory with an inclusion of nuclear deformation effects, we have calculated the transverse momentum qT spectra in isobaric collisions. We observe the characteristic dip behavior in these spectra, indicative of diffraction phenomena in high-energy physics. We notice that the deformation effects cause a nearly linear increase with qT2 for qT20.015 GeV2, aligning with experimental observations. We offer a simple explanation for the observed behavior in these spectra by introducing the effective width of the nuclei in the thickness function. We also extend our discussion on the 0 meson photoproduction with the targets 63Cu,197Au, and 238U.
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