Effect of nuclear structure on particle production in relativistic heavy-ion collisions using a multiphase transport model

We report a study of transverse momentum (pT) spectra for π±, K±, p, and p¯ in isobar, Ru4496+Ru4496 and Zr4096+Zr4096, collisions at sNN=200GeV using a multiphase transport model. Particle yields (dN/dy), average transverse momenta ((pT)), and particle ratios are reported in various collision systems with different parametrizations of the Woods-Saxon distribution. We observed a maximum difference of 5% in the particle yields in peripheral collisions when we included a quadrupole and octupole deformation and a nuclear size difference between the isobars. The π-/π+ ratio is smaller in Ru+Ru collisions compared with Zr+Zr collisions indicating an effect of isospin due to difference in number of protons and neutrons between the two nuclei. The K-/K+ ratio is same in both the systems indicating the dominance of the pair production mechanism in the kaon production. The p¯/p ratio is further smaller in Ru+Ru collisions than Zr+Zr collisions, indicating the effect of baryon stopping in addition to the isospin effect. A system size dependence is observed in dN/dy and (pT) when we compare the results from isobar collisions with Au+Au and U+U collisions.