Electromagnetic responses of a non-extensive quark-gluon plasma

Abstract

Based on the non-extensive statistical mechanics and the gluon polarization tensor obtained from kinetic theory, we derive the longitudinal and transverse gluon self-energies for the quark-gluon plasma. The electric permittivity and the magnetic permeability μM are evaluated from the gluon self-energies through which the real part of the square of the refraction index Re\, n2 and the Depine-Lakhtakia index nDL are investigated. The real part of displays a frequency pole ωd=p, which is just the position of the frequency inflexion of the imaginary part of . The non-extensive parameter q significantly affects the real and imaginary parts of in the space-like region ω<p, while the frequency pole ωd=p remains unchanged as q increases. The magnetic permeability, Re\, n2 and the Depine-Lakhtakia index nDL diverge at frequency ωm. As q increases, the pole frequency ωm shifts to large frequency region. The Depine-Lakhtakia index nDL becomes negative in a quite large frequency region ω∈[ωc, ωm]. When q increases, the frequency range for nDL<0 becomes wider. Nevertheless, there are no propagating modes for the negative refraction. In addition, as momentum p increases, the electric permittivity, the magnetic permeability, Re\, n2 and nDL are sensitive to the change of p, which indicates the importance of the spatial dispersion in the electromagnetic responses of the QGP.