Abstract
We present exact analytical black hole solutions with conformal anomaly in AdS space and discuss the thermodynamical properties of these black hole solutions. These black holes can have a positive, zero and negative constant curvature horizon, respectively. For the black hole with a positive constant curvature horizon, there exists a minimal horizon determined by the coefficient of the trace anomaly, the black hole with a smaller horizon is thermodynamically unstable, while it is stable for the case with a larger horizon. The Hawking–Page transition happens in this case. For the black hole with a Ricci flat horizon, the black hole is always thermodynamically stable and there is no Hawking–Page transition. In the case of the black hole with a negative constant curvature horizon, there exists a critical value for the coefficient of the trace anomaly, under this critical value, the black hole is always thermodynamical stable and the Hawking–Page transition does not happen. When the coefficient is beyond the critical value, the black hole with a smaller horizon is thermodynamically unstable, but it becomes stable for the case with a larger horizon, the Hawking–Page transition always happens in this case. The latter is a new feature for the black holes with a negative constant curvature horizon.
Highlights
The AdS/CFT correspondence [1, 2, 3] conjectures that string/M theory in an anti-de Sitter (AdS) space is dual to a strongly coupled conformal field theory (CFT) living on the AdS boundary
The integration constant Q can be interpreted as a U(1) conserved charge of the conformal field theory which leads to the trace anomaly
In this paper we have presented exact analytical black hole solutions with trace anomaly in AdS space
Summary
The AdS/CFT correspondence [1, 2, 3] conjectures that string/M theory in an anti-de Sitter (AdS) space (times some compact space) is dual to a strongly coupled conformal field theory (CFT) living on the AdS boundary. For the black holes with (zero curvature) Ricci flat horizon and (negative curvature) hyperbolic horizons, they are always thermodynamically stable (see, for example, [14]) This means that the black hole phase is always dominated in the dual conformal field theory side. In this note we are going to generalize the black hole solution presented in [30] to the case with a negative cosmological constant and to study the thermodynamical properties of the trace anomaly corrected black holes in AdS space.
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