ar X iv : g r - qc / 9 30 70 38 v 1 2 9 Ju l 1 99 3 Black Hole Entropy is Noether Charge
نویسنده
چکیده
We consider a general, classical theory of gravity in n dimensions, arising from a diffeomorphism invariant Lagrangian. In any such theory, to each vector field, ξ, on spacetime one can associate a local symmetry and, hence, a Noether current (n− 1)-form, j, and (for solutions to the field equations) a Noether charge (n− 2)form, Q, both of which are locally constructed from ξ and the the fields appearing in the Lagrangian. Assuming only that the theory admits stationary black hole solutions with a bifurcate Killing horizon (with bifurcation surface Σ), and that the canonical mass and angular momentum of solutions are well defined at infinity, we show that the first law of black hole mechanics always holds for perturbations to nearby stationary black hole solutions. The quantity playing the role of black hole entropy in this formula is simply 2π times the integral over Σ of the Noether charge (n − 2)-form associated with the horizon Killing field (i.e., the Killing field which vanishes on Σ), normalized so as to have unit surface gravity. Furthermore, we show that this black hole entropy always is given by a local geometrical expression on the horizon of the black hole. We thereby obtain a natural candidate for the entropy of a dynamical black hole in a general theory of gravity. Our results show that the validity of the “second law” of black hole mechanics in dynamical evolution from an initially stationary black hole to a final stationary state is equivalent to
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