On some novel features of the Kerr–Newman-NUT spacetime

• Main Authors: Sajal Mukherjee, Sumanta Chakraborty, Naresh Dadhich
• Format: Article
• Language: English
• Published: SpringerOpen 2019-02-01
• Series: European Physical Journal C: Particles and Fields
• Online Access: http://link.springer.com/article/10.1140/epjc/s10052-019-6662-2

Abstract In this work we have presented a special class of Kerr–Newman-NUT black hole, having its horizon located precisely at $$r=2M$$ r=2M , for $$Q^{2}=l^{2}-a^{2}$$ Q2=l2-a2 , where M, l, a and Q are respectively mass, NUT, rotation and electric charge parameters of the black hole. Clearly this choice radically alters the causal structure as there exists no Cauchy horizon indicating spacelike nature of the singularity when it exists. On the other hand, there is no curvature singularity for $$l^2 > a^2$$ l2>a2 , however it may have conical singularities. Furthermore there is no upper bound on specific rotation parameter a / M, which could exceed unity without risking destruction of the horizon. To bring out various discerning features of this special member of the Kerr–Newman-NUT family, we study timelike and null geodesics in the equatorial as well as off the equatorial plane, energy extraction through super-radiance and Penrose process, thermodynamical properties and also the quasi-periodic oscillations. It turns out that the black hole under study radiates less energy through the super-radiant modes and Penrose process than the other black holes in this family.