System evolution of forward-backward multiplicity correlations in a multi-phase transport model
Abstract
The initial geometry effect on forward-backward multiplicity correlations C(Nf,Nb) is studied in relativistic collisions between light nuclei by using a multiphase transport model (AMPT). It is found that tetrahedron 16O + 16O gives a more uniform and symmetrical fireball which produces a more isotropic distribution of final particles after the expansion and evolution, and leads to a small C(Nf,Nb). Forward-backward multiplicity correlation could be taken as a useful probe to distinguish the pattern of α-clustered 16O in experiments by comparing the neighboring colliding nuclear systems like 14N + 14N and 19F + 19F.
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