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Collisional Penrose Process near the Horizon of Extreme Kerr Black Holes

M. BejgerCopernicus Astronomical Center, Warszawa, Poland. [email protected]Tsvi PiranRacah Institute of Physics, The Hebrew University, Jerusalem 91904, IsraelM. A. AbramowiczCopernicus Astronomical Center, ul. Bartycka 18, 00-716, Warszawa, PolandFrida HåkansonDepartment of Physics, Chalmers Technical University, 412-96, Göteborg, Sweden
2012en
ABI

Abstract

Collisions of particles in black hole ergospheres may result in an arbitrarily large center-of-mass energy. This led recently to the suggestion [M. Bañados, J. Silk, and S. M. West, Phys. Rev. Lett. 103, 111102 (2009)] that black holes can act as ultimate particle accelerators. If the energy of an outgoing particle is larger than the total energy of the infalling particles, the energy excess must come from the rotational energy of the black hole and hence, a Penrose process is involved. However, while the center-of-mass energy diverges, the position of the collision makes it impossible for energetic particles to escape to infinity. Following an earlier work on collisional Penrose processes [T. Piran and J. Shaham, Phys. Rev. D 16, 1615 (1977)], we show that even under the most favorable idealized conditions the maximal energy of an escaping particle is only a modest factor above the total initial energy of the colliding particles. This implies that one should not expect collisions around a black hole to act as spectacular cosmic accelerators.

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