Conserved charges and black holes in the Einstein-Maxwell theory on AdS3 reconsidered
Abstract
Stationary circularly symmetric solutions of General Relativity with negative cosmological constant coupled to the Maxwell field are analyzed in three spacetime dimensions. Taking into account that the fall-off of the fields is slower than the standard one for a localized distribution of matter, it is shown that, by virtue of a suitable choice of the electromagnetic Lagrange multiplier, the action attains a bona fide extremum provided the asymptotic form of the electromagnetic field fulfills a nontrivial integrability condition. As a consequence, the mass and the angular momentum become automatically finite, without the need of any regularization procedure, and they generically acquire contributions from the electromagnetic field. Therefore, unlike the higher-dimensional case, it is found that the precise value of the mass and the angular momentum explicitly depends on the choice of boundary conditions. It can also be seen that requiring compatibility of the boundary conditions with the Lorentz and scaling symmetries of the class of stationary solutions, singles out a very special set of "holographic boundary conditions" that is described by a single parameter. Remarkably, in stark contrast with the somewhat pathological behaviour found in the standard case, for the holographic boundary conditions (i) the energy spectrum of an electrically charged (rotating) black hole is nonnegative, and (ii) for a fixed value of the mass, the electric charge is bounded from above.
- Publication:
-
Journal of High Energy Physics
- Pub Date:
- October 2015
- DOI:
- 10.1007/JHEP10(2015)161
- arXiv:
- arXiv:1509.01750
- Bibcode:
- 2015JHEP...10..161P
- Keywords:
-
- Black Holes;
- Classical Theories of Gravity;
- Gauge-gravity correspondence;
- High Energy Physics - Theory;
- General Relativity and Quantum Cosmology
- E-Print:
- 15 pages, 1 figure. Matches published version