Energy, Hamiltonian, Noether Charge, and Black Holes

Abstract

It is shown that in general the energy E and the Hamiltonian H of matter fields on the black hole exterior play different roles. H is a generator of the time evolution along the Killing time while E enters the first law of black hole thermodynamics. For non-minimally coupled fields the difference H- E is not zero and is a Noether charge Q analogous to that introduced by Wald to define the black hole entropy. If fields vanish at the spatial boundary, Q is reduced to an integral over the horizon. The analysis is carried out and an explicit expression for Q is found for general diffeomorphism invariant theories. As an extension of the results by Wald et al, the first law of black hole thermodynamics is derived for arbitrary weak matter fields.

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