2021
DOI: 10.1007/jhep01(2021)137
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Anomalies in gravitational charge algebras of null boundaries and black hole entropy

Abstract: We revisit the covariant phase space formalism applied to gravitational theories with null boundaries, utilizing the most general boundary conditions consistent with a fixed null normal. To fix the ambiguity inherent in the Wald-Zoupas definition of quasilocal charges, we propose a new principle, based on holographic reasoning, that the flux be of Dirichlet form. This also produces an expression for the analog of the Brown-York stress tensor on the null surface. Defining the algebra of charges using the Barnic… Show more

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Cited by 77 publications
(213 citation statements)
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References 116 publications
(311 reference statements)
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“…From the geometrical point of view, it selects a particular family of the AdS 3 folia by the relationships on α and β. The coefficient η = −1/2 agrees with the result in [31] with a different derivation. The pair of CFT tempratures for BTZ black hole [21] satisfy such condition, while the pair in Kerr/CFT does not [22,26].…”
Section: Jhep04(2021)011supporting
confidence: 85%
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“…From the geometrical point of view, it selects a particular family of the AdS 3 folia by the relationships on α and β. The coefficient η = −1/2 agrees with the result in [31] with a different derivation. The pair of CFT tempratures for BTZ black hole [21] satisfy such condition, while the pair in Kerr/CFT does not [22,26].…”
Section: Jhep04(2021)011supporting
confidence: 85%
“…Note that although the result has the same coefficient (η+1) as the piece of field space exact form (η + 1)δ(κ H ) in the symplectic potential, all the terms in (4.25) contribute to K m,−m and (4.27) relates them in a specific way to combine into (4.30). This is different with [31], in which the central extension purely localized on the noncovariance of the boundary term l b . Interestingly, there is also no linear term on m in K m,−m after (4.27) is imposed.…”
Section: Jhep04(2021)011mentioning
confidence: 73%
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