Impact of magnetic-field fluctuations on measurements of the chiral magnetic effect in collisions of isobaric nuclei

Abstract

We investigate the properties of electromagnetic fields in isobaric 4496Ru+\,4496Ru and 4096Zr+\,4096Zr collisions at s = 200 GeV by using a multiphase transport model, with special emphasis on the correlation between magnetic field direction and participant plane angle 2 (or spectator plane angle 2 SP), i.e. cos\ 2(B - 2) [or cos\ 2(B - 2 SP)]. We confirm that the magnetic fields of 4496Ru+\,4496Ru collisions are stronger than those of 4096Zr+\,4096Zr collisions due to their larger proton fraction. We find that the deformation of nuclei has a non-negligible effect on cos\ 2(B - 2) especially in peripheral events. Because the magnetic-field direction is more strongly correlated with 2 SP than with 2, the relative difference of the chiral magnetic effect observable with respect to 2 SP is expected to be able to reflect much cleaner information about the chiral magnetic effect with less influences of deformation.