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      On the classification and asymptotic structure of black holes in bimetric theory

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          Abstract

          We study general properties of static and spherically symmetric bidiagonal black holes in Hassan-Rosen bimetric theory. In particular, we explore the behaviour of the black hole solutions both at the common Killing horizon and at the large radii. The former study leads to a new classification for black holes within the bidiagonal ansatz. The latter study shows that, among the great variety of the black hole solutions, the only solutions converging to Minkowski, Anti-de Sitter and de Sitter spacetimes at large radii are those of General Relativity, i.e., the Schwarzschild, Schwarzschild-Anti-de Sitter and Schwarzschild-de Sitter solutions.

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          The general problem of the stability of motion

          A. LYAPUNOV (1992)
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            Stability analysis of black holes in massive gravity: A unified treatment

            Eugeny Babichev, Alessandro Fabbri (2014)
            Article 0 comments Cited 12 times – based on 0 reviews     Review now
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              Dark matter in ghost-free bigravity theory: From a galaxy scale to the universe

              , (2014)
              We study the origin of dark matter based on the ghost-free bigravity theory with twin matter fluids. The present cosmic acceleration can be explained by the existence of graviton mass, while dark matter is required in several cosmological situations [the galactic missing mass, the cosmic structure formation and the standard big-bang scenario (the cosmological nucleosynthesis vs the CMB observation)]. Assuming that the Compton wavelength of the massive graviton is shorter than a galactic scale, we show the bigravity theory can explain dark matter by twin matter fluid as well as the cosmic acceleration by tuning appropriate coupling constants.
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                Author and article information

                Journal
                Publication date Created: 2017-03-22
                Article
                ArXiV ID: 1703.07787
                SO-VID: 67a94ca5-3aa5-47ee-b0fc-4e82c982446e
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                http://arxiv.org/licenses/nonexclusive-distrib/1.0/

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                Comments 51 pages, 15 figures
                Categories gr-qc

                ScienceOpen disciplines: General relativity & Quantum cosmology
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                ScienceOpen disciplines: General relativity & Quantum cosmology

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