Charge-dependent anisotropic flow in high-energy heavy-ion collisions from relativistic resistive magneto-hydrodynamic expansion
Abstract
We have investigated the charge-dependent anisotropic flow in high-energy heavy-ion collisions, using relativistic resistive magneto-hydrodynamics (RRMHD). We consider the optical Glauber model as an initial model of the quark-gluon plasma (QGP) and the solution of the Maxwell equations with source term of the charged particles in two colliding nuclei as initial electromagnetic fields. The RRMHD simulation is performed with these initial conditions in Au-Au and Cu-Au collisions at sNN = 200 GeV. We have calculated the charge-odd contribution to the directed flow v1 and elliptic flow v2 in both collisions based on electric charge distributions as a consequence of RRMHD. Our results show that the v1 and v2 are approximately proportional to the electrical conductivity (σ) of the medium. In the σ=0.023~fm-1 case, our result of v1 is consistent with STAR data in Au-Au collisions. Furthermore, in Cu-Au collisions, v1 has a non-zero value at η = 0. We conclude that the charge-dependent anisotropic flow is a good probe to extract the electrical conductivity of the QGP medium in high-energy heavy-ion experiments.
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