Maximal Efficiency of Collisional Penrose Process with Spinning Particle II

Abstract

We analyze the collisional Penrose process between a particle on the ISCO orbit around an extreme Kerr black hole and a particle impinging from infinity. We consider both cases with non-spinning and spinning particles. We evaluate the maximal efficiency, ηmax=(extracted energy)/(input energy), for the elastic collision of two massive particles and for the photoemission process, in which the ISCO particle will escape to infinity after the collision with a massless impinging particle. For non-spinning particles, the maximum efficiency is ηmax ≈ 2.562 for the elastic collision and ηmax ≈ 7 for the photoemission process. While for spinning particles we obtain the maximal efficiency ηmax ≈ 8.442 for the elastic collision and ηmax ≈ 12.54 for the photoemission process.