Sean Cooper, Dominik Neuenfeld, Moshe Rozali, David Wakeham
Published 2019-12-12Version 1
In this note, we study the first law of entanglement in a boundary conformal field theory (BCFT) dual to warped AdS cut off by a brane. Exploiting the symmetry of boundary-centered half-balls in the BCFT, and using Wald's covariant phase space formalism in the presence of boundaries, we derive constraints from the first law for a broad range of covariant bulk Lagrangians. We explicitly evaluate these constraints for Einstein gravity, and find a local equation on the brane which is precisely the Neumann condition of Takayanagi [arXiv:1105.5165] at linear order in metric perturbations. This is analogous to the derivation of Einstein's equations from the first law of entanglement entropy. This machinery should generalize to give local linearized equations of motion for higher-derivative bulk gravity with additional fields.
Comments: 19 pages plus appendices
D-branes in N=2 coset models and twisted equivariant K-theory
Magnetic Fields and Fractional Statistics in Boundary Conformal Field Theory
Casimir Effect, Weyl Anomaly and Displacement Operator in Boundary Conformal Field Theory
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