Inextendible Schwarzschild black hole with a single exterior: How thermal is the Hawking radiation?
Feb, 199853 pages
Published in:
- Phys.Rev.D 58 (1998) 024007
e-Print:
- gr-qc/9802068 [gr-qc]
Report number:
- PPG-98-79,
- SU-GP-98-2-1
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Abstract: (arXiv)
Several approaches to Hawking radiation on Schwarzschild spacetime rely in some way or another on the fact that the Kruskal manifold has two causally disconnected exterior regions. We investigate the Hawking(-Unruh) effect for a real scalar field on the \RPthree geon: an inextendible, globally hyperbolic, space and time orientable eternal black hole spacetime that is locally isometric to Kruskal but contains only one exterior region. The Hartle-Hawking-like vacuum~\hhvacgeon, which can be characterized alternatively by the positive frequency properties along the horizons or by the complex analytic properties of the Feynman propagator, turns out to contain exterior region Boulware modes in correlated pairs, and any operator in the exterior that only couples to one member of each correlated Boulware pair has thermal expectation values in the usual Hawking temperature. Generic operators in the exterior do not have this special form; however, we use a Bogoliubov transformation, a particle detector analysis, and a particle emission-absorption analysis that invokes the analytic properties of the Feynman propagator, to argue that \hhvacgeon appears as a thermal bath with the standard Hawking temperature to any exterior observer at asymptotically early and late Schwarzschild times. A~(naive) saddle-point estimate for the path-integral-approach partition function yields for the geon only half of the Bekenstein-Hawking entropy of a Schwarzschild black hole with the same ADM mass: possible implications of this result for the validity of path-integral methods or for the statistical interpretation of black-hole entropy are discussed. Analogous results hold for a Rindler observer in a flat spacetime whose global properties mimic those of the geon.- black hole
- field theory: scalar
- radiation: Hawking
- space-time: geon
- Bogolyubov transformation
- counters and detectors: acceleration
- vacuum state
- tensor: energy-momentum
- propagator: analytic properties
- partition function
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