Magnetohydrodynamics and charged currents in heavy ion collisions
Publication date
2014-08-18
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Abstract
The hot QCD matter produced in any heavy ion collision with a nonzero impact parameter is produced within a strong magnetic field. We study the imprint the magnetic fields produced in non-central heavy ion collisions leave on the azimuthal distributions and correlations of the produced charged hadrons. The magnetic field is time-dependent and the medium is expanding, which leads to the induction of charged currents due to the combination of Faraday and Hall effects. We find that these currents result in a charge-dependent directed flow $v_1$ that is odd in rapidity and odd under charge exchange. It can be detected by measuring correlations between the directed flow of charged hadrons at different rapidities, $\langle v_1^\pm (y_1) v_1^\pm (y_2) \rangle$.
Keywords
Magnetohydrodynamics, Quark gluon plasma, Heavy ion collisions
Citation
Gursoy, U, Kharzeev, D & Rajagopal, K 2014, 'Magnetohydrodynamics and charged currents in heavy ion collisions', Nuclear physics. Series A, vol. 931, pp. 986-991. https://doi.org/10.1016/j.nuclphysa.2014.09.039