Evidence of quadrupole and octupole deformations in 96Zr+96Zr and 96Ru+96Ru collisions at ultra-relativistic energies

Abstract

In the hydrodynamic model description of heavy ion collisions, the elliptic flow v2 and triangular flow v3 are sensitive to the quadrupole deformation β2 and octupole deformation β3 of the colliding nuclei. The relations between vn and βn have recently been clarified and were found to follow a simple parametric form. The STAR Collaboration have just published precision vn data from isobaric 96Ru+96Ru and 96Zr+96Zr collisions, where they observe large differences in central collisions v2,Ru>v2,Zr and v3,Ru<v3,Zr. Using a transport model simulation, we show that these orderings are a natural consequence of β2,Ruβ2,Zr and β3,Ruβ3,Zr. We reproduce the centrality dependence of the v2 ratio qualitatively and v3 ratio quantitatively, and extract values of β2 and β3 that are consistent with those measured at low energy nuclear structure experiments. STAR data provide the first direct evidence of strong octupole correlations in the ground state of 96Zr in heavy ion collisions. Our analysis demonstrates that flow measurements in high-energy heavy ion collisions, especially using isobaric systems, are a new precision tool to study nuclear structure physics.