Axion-induced oscillations of cooperative electric field in a cosmic magneto-active plasma*
Department of General Relativity and Gravitation,
Institute of Physics, Kazan Federal University, Kremlevskaya str. 18, 420008
a e-mail: Alexei.Zayats@kpfu.ru
Received in final form: 14 April 2014
Published online: 23 June 2014
We consider one cosmological application of an axionic extension of the Maxwell-Vlasov theory, which describes axionically induced oscillatory regime in the state of global magnetic field evolving in the anisotropic expanding (early) universe. We show that the cooperative electric field in the relativistic plasma, being coupled to the pseudoscalar (axion) and global magnetic fields, plays the role of a regulator in this three-level system; in particular, the cooperative (Vlasov) electric field converts the regime of anomalous growth of the pseudoscalar field, caused by the axion-photon coupling at the inflationary epoch of the universe expansion, into an oscillatory regime with finite density of relic axions. We analyze solutions to the dispersion equations for the axionically induced cooperative oscillations of the electric field in the relativistic plasma.
© EDP Sciences, Società Italiana di Fisica, Springer-Verlag 2014