Importance of isobar density distributions on the chiral magnetic effect search

Abstract

Under the approximate chiral symmetry restoration, quark interactions with topological gluon fields in quantum chromodynamics can induce chirality imbalance and parity violation in local domains. An electric charge separation ( cs) could be generated along the direction of a strong magnetic field ( B), a phenomenon called the chiral magnetic effect ( cme). cs measurements by azimuthal correlators are contaminated by a major background from elliptic flow anisotropy (v2). Isobaric 9644Ru+9644Ru and 9640Zr+9640Zr collisions have been proposed to identify the cme (expected to differ between the two systems) out of the background (expected to be almost the same). We show, by using the density-functional calculated proton and neutron distributions, that these expectations may not hold as originally anticipated, because the two systems may have sizable differences in eccentricity and v2 and because their difference in B may suffer from large uncertainties.