Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
2009-12-15
Phys.Rev.D81:044017,2010
Physics
High Energy Physics
High Energy Physics - Theory
30 pages, 10 figures, 1 table; v2: minor modifications, typos corrected, to appear in PRD
Scientific paper
10.1103/PhysRevD.81.044017
We study physical properties and global structures of a time-dependent, spherically symmetric solution obtained via the dimensional reduction of intersecting M-branes. We find that the spacetime describes a maximally charged black hole which asymptotically tends to the Friedmann-Lema\^itre-Robertson-Walker (FLRW) universe filled by a stiff matter. The metric solves the field equations of Einstein-Maxwell-dilaton system, in which four Abelian gauge fields couple to the dilation with different coupling constants. The spacetime satisfies the dominant energy condition and is characterized by two parameters, $Q$ and $\tau$, related to the Maxwell charge and the relative ratio of black-hole horizon radii, respectively. In spite of the nontrivial time-dependence of the metric, it turns out that the black hole event horizon is a Killing horizon. This unexpected symmetry may be ascribed to the fact that the 11-dimensional (11D) brane configurations are supersymmetric in the static limit. Finally, combining with laws of trapping horizon, we discuss the thermodynamic properties of the black hole. It is shown that the horizon possesses a nonvanishing temperature, contrary to the extremal Reissner-Nordstr{\o}m (RN) solution.
Maeda Kei--ichi
Nozawa Masato
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