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Abstract
Warped dS3 arises as a solution to topologically massive gravity (TMG) with positive cosmological constant +1/ℓ2 and Chern-Simons coefficient 1/μ in the region μ2ℓ2 < 27. It is given by a real line fibration over two-dimensional de Sitter space and is equivalent to the rotating Nariai geometry at fixed polar angle. We study the thermodynamic and asymptotic structure of a family of geometries with warped dS3 asymptotics. Interestingly, these solutions have both a cosmological horizon and an internal one, and their entropy is unbounded from above unlike black holes in regular de Sitter space. The asymptotic symmetry group resides at future infinity and is given by a semi-direct product of a Virasoro algebra and a current algebra. The right moving central charge vanishes when μ2ℓ2 = 27/5. We discuss the possible holographic interpretation of these de Sitter-esque spacetimes.
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1 Harvard University, Center for the Fundamental Laws of Nature, Cambridge, U.S.A. (GRID:grid.38142.3c) (ISNI:000000041936754X)
2 Université Libre de Bruxelles, Service de Physique théorique et mathématique, Brussels, Belgium (GRID:grid.4989.c) (ISNI:0000000123480746)