Optical properties of a nonlinear magnetic charged rotating black hole surrounded by quintessence with a cosmological constant

Abstract

In this paper,we discuss optical properties of the nonlinear magnetic charged black hole surrounded by quintessence with a non-zero cosmological constant . Setting the state parameter ω=-3/2 , we studied the horizon, the photon region and the shadow of this black hole. It turned out that for a fixed quintessential parameter γ, in a certain range, with the increase of the rotation parameter a and magnetic charge Q, the inner horizon radius increases while the outer horizon radius decreases. And the cosmological horizon r decrease when γ or incease and increase slightly with increasing a and Q. The shapes of photon region were then studied and depicted through graphical illustrations. Finally, we discussed the effects of the quintessential parameter γ and the cosmological constant on the shadow cast by this balck hole with a fixed observer position.