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Frassino, A. M. & Rocha, J. V. (2020). Charged black holes in Einsteinian cubic gravity and nonuniqueness. Physical Review D. 102 (2), 1-8
A. M. Frassino and J. M. Rocha, "Charged black holes in Einsteinian cubic gravity and nonuniqueness", in Physical Review D, vol. 102, no. 2, pp. 1-8, 2020
@article{frassino2020_1732248997793, author = "Frassino, A. M. and Rocha, J. V.", title = "Charged black holes in Einsteinian cubic gravity and nonuniqueness", journal = "Physical Review D", year = "2020", volume = "102", number = "2", doi = "10.1103/PhysRevD.102.024035", pages = "1-8", url = "https://journals.aps.org/prd/abstract/10.1103/PhysRevD.102.024035" }
TY - JOUR TI - Charged black holes in Einsteinian cubic gravity and nonuniqueness T2 - Physical Review D VL - 102 IS - 2 AU - Frassino, A. M. AU - Rocha, J. V. PY - 2020 SP - 1-8 SN - 2470-0010 DO - 10.1103/PhysRevD.102.024035 UR - https://journals.aps.org/prd/abstract/10.1103/PhysRevD.102.024035 AB - Black holes are the simplest objects in the Universe. They correspond to extreme deformations of spacetime geometry and can exist even devoid of matter. In general relativity, (electro)vacuum black holes are uniquely determined by their mass, charge, and angular momentum. This feature follows from a uniqueness theorem, which can be evaded if one considers higher dimensions or matter fields coupled to gravity. Here we find that Einsteinian cubic gravity, a well-motivated modification of Einstein gravity that includes third-order curvature corrections in accordance with low-energy effective theory expectations, admits black hole solutions with charge greater than mass, when minimally coupled to a Maxwell field. Moreover, we find that, in this regime, there can be two asymptotically flat black holes with the same charge and mass, posing the first example of vacuum black hole nonuniqueness in four dimensions that is free from pathologies. Examination of these black hole’s thermodynamics reveals that when two branches coexist only the larger black hole is thermodynamically stable, while the smaller branch has negative specific heat. Einsteinian cubic gravity unveils two further surprising features. The charged black holes do not possess an inner horizon, in contrast with the usual Reissner-Nordström spacetime, thus avoiding the need to resort to strong cosmic censorship to uphold determinism. In addition to black holes, there exists a one-parameter family of naked singularity spacetimes sharing the same mass and charge as the former, but not continuously connected with them. These naked singularities exist in the under-extremal regime, being present even in pure (uncharged) Einsteinian cubic gravity. ER -