Electromagnetic field and the chiral magnetic effect in the quark-gluon plasma
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Time evolution of electromagnetic field created in heavy-ion collisions strongly depends on the electromagnetic response of the quark-gluon plasma, which can be described by the Ohmic and chiral conductivities. The later is intimately related to the Chiral Magnetic Effect. I argue that a solution to the classical Maxwell equations at finite chiral conductivity is unstable due to the soft modes $k<\sigma_\chi$ that grow exponentially with time. In the kinematical region relevant for the relativistic heavy-ion collisions, I derive analytical expressions for the magnetic field of a point charge. I show that finite chiral conductivity causes oscillations of magnetic field at early times.
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Cited by 2 Pith papers
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Higher temperatures enable chiral plasma instability to grow magnetic fields from modest chiral chemical potentials, while CME from density fluctuations produces rapid Joule heating reaching QCD-scale energies in mill...
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Quark and gluon production in the presence of the time-varying chiral magnetic current
Time-dependent chiral magnetic conductivity modifies particle spectra and energy loss, implying polarized jets in quark-gluon plasma.
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