Vacuum polarization in two-dimensional static spacetimes and dimensional
  reduction

Akira Tomimatsu; Alessandro Fabbri; D.N. Page; G. Chika; K.W. Howard; K.W. Howard; M. Buric; M.R. Brown; M.R. Brown; P. Candelas; P. Sutton; P.R. Anderson; P.R. Anderson; Patrick J. Sutton; Piero Nicolini; R. Balbinot; R. Balbinot; R. Balbinot; R. Bousso; Roberto Balbinot; S. Nojiri; S.M. Christensen; S.M. Christensen; S.W. Hawking; V. Frolov; V. Mukhanov; V.P. Frolov; V.P. Frolov; W. Kummer

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Vacuum polarization in two-dimensional static spacetimes and dimensional reduction

Authors: Akira Tomimatsu
Alessandro Fabbri
D.N. Page
G. Chika
K.W. Howard
K.W. Howard
M. Buric
M.R. Brown
M.R. Brown
P. Candelas
P. Sutton
P.R. Anderson
P.R. Anderson
Patrick J. Sutton
Piero Nicolini
R. Balbinot
R. Balbinot
R. Balbinot
R. Bousso
Roberto Balbinot
S. Nojiri
S.M. Christensen
S.M. Christensen
S.W. Hawking
V. Frolov
V. Mukhanov
V.P. Frolov
V.P. Frolov
W. Kummer
Publication date: 1 January 2002
Publisher: 'American Physical Society (APS)'
Doi

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.Comment: REVTeX 4, 23 pages. Accepted by PRD. Minor modifications from original versio

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