Vacuum polarization in two-dimensional static spacetimes and dimensional reduction
- 3 July 2002
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review D
- Vol. 66 (2) , 024014
- https://doi.org/10.1103/physrevd.66.024014
Abstract
We obtain an analytic approximation for the effective action of a quantum scalar field in a general static two-dimensional spacetime. We apply this to the dilaton gravity model resulting from the spherical reduction of a massive, non-minimally coupled scalar field in the four-dimensional Schwarzschild geometry. Careful analysis near the event horizon shows the resulting two-dimensional system to be regular in the Hartle-Hawking state for general values of the field mass, coupling, and angular momentum, while at spatial infinity it reduces to a thermal gas at the black-hole temperature.Keywords
All Related Versions
This publication has 24 references indexed in Scilit:
- Vacuum polarization in the Schwarzschild spacetime and dimensional reductionPhysical Review D, 2001
- Quantum corrections for an (anti)evaporating black holePhysical Review D, 2001
- Dimensional-reduction anomaly in spherically symmetric spacetimesPhysical Review D, 2000
- Dimensional-reduction anomalyPhysical Review D, 1999
- 4D quantum black hole physics from 2D models?Physics Letters B, 1999
- Hawking radiation by effective two-dimensional theoriesPhysical Review D, 1999
- Trace anomaly of dilaton-coupled scalars in two dimensionsPhysical Review D, 1997
- Disappearance of Black Hole Criticality in Semiclassical General RelativityModern Physics Letters A, 1997
- On 4D Hawking radiation from the effective actionPhysics Letters B, 1994
- Particle creation by black holesCommunications in Mathematical Physics, 1975