Quantum fields in Schwarzschild-de Sitter space - INSPIRE

DataBETA

Quantum fields in Schwarzschild-de Sitter space

Wu-Zhong Chao
(
- ICRA, Rome and
- Beijing Normal U.
)

Dec, 1997

24 pages

Published in:

Int.J.Mod.Phys.D 7 (1998) 887-907

e-Print:

gr-qc/9712066 [gr-qc]

DOI:

10.1142/S0218271898000589

Report number:

ICRA-97-101

View in:

reference search12 citations

Citations per year

Abstract: (arXiv)

In the No-Boundary Universe a primordial black hole is created from a constrained gravitational instanton. The black hole created is immersed in the de Sitter background with a positive cosmological constant. The constrained instanton is characterized not only by the external parameters, the mass parameter, charge and angular momentum, but also by one more internal parameter, the identification period in the imaginary time coordinate. Although the period has no effect on the black hole background, its inverse is the temperature of the no-boundary state of the perturbation modes perceived by an observer. By using the Bogoliubov transformation, we show that the perturbation modes of both scalar and spinor fields are in thermal q equilibrium with the black hole background at the arbitrary temperature. However, for the two extreme cases, the de Sitter and the Nariai models, the no-boundary state remains pure.

cosmological model
space-time: de Sitter
space-time: Schwarzschild
black hole
cosmological constant
instanton
Bogolyubov transformation
fermion
black hole: production
gravitation: instanton

References(22)

Figures(0)

Wave Function of the Universe

J.B. Hartle
(
- Chicago U., EFI and
- Santa Barbara, KITP
)
,
S.W. Hawking
(
- Cambridge U. and
- Santa Barbara, KITP
)

- Phys.Rev.D 28 (1983) 2960-2975,
- Adv.Ser.Astrophys.Cosmol. 3 (1987) 174-189
•
DOI:
- 10.1103/PhysRevD.28.2960

The Quantum State of the Universe

S.W. Hawking
(
- Cambridge U.
)

- Nucl.Phys.B 239 (1984) 257,
- Adv.Ser.Astrophys.Cosmol. 3 (1987) 236-255
•
DOI:
- 10.1016/0550-3213(84)90093-2

Particle Creation by Black Holes

S.W. Hawking
(
- Cambridge U., DAMTP and
- Caltech
)

- Commun.Math.Phys. 43 (1975) 199-220,
- Commun.Math.Phys. 46 (1976) 206 (erratum),
•
DOI:
- 10.1007/BF02345020

Cosmological Event Horizons, Thermodynamics, and Particle Creation

G.W. Gibbons
(
- Cambridge U.
)
,
S.W. Hawking
(
- Cambridge U.
)

- Phys.Rev.D 15 (1977) 2738-2751
•
DOI:
- 10.1103/PhysRevD.15.2738

The Probability for primordial black holes

R. Bousso
(
- Cambridge U.
)
,
S.W. Hawking
(
- Cambridge U.
)

- Phys.Rev.D 52 (1995) 5659-5664
•
e-Print:
- gr-qc/9506047
•
DOI:
- 10.1103/PhysRevD.52.5659

Quantum creation of a black hole

Wu-Zhong Chao
(
- Rome U. and
- Vatican Astron. Observ.
)

- Int.J.Mod.Phys.D 6 (1997) 199
•
e-Print:
- gr-qc/9801020
•
DOI:
- 10.1142/S0218271897000121

Variational principles for nonsmooth metrics

G. Hayward
(
- Alberta U.
)
,
J. Louko
(
- Alberta U.
)

- Phys.Rev.D 42 (1990) 4032-4041
•
DOI:
- 10.1103/PhysRevD.42.4032

Real Tunneling Geometries and the Large Scale Topology of the Universe

G.W. Gibbons
(
- Cambridge U.
)
,
J.B. Hartle
(
- UC, Santa Barbara
)

- Phys.Rev.D 42 (1990) 2458-2468
•
DOI:
- 10.1103/PhysRevD.42.2458

QUANTUM KALUZA-KLEIN COSMOLOGIES. II

Xiao-Ming Hu
(
- Cambridge U.
)
,
Zhong-Chao Wu
(
- ICTP, Trieste
)

- Phys.Lett.B 149 (1984) 87-89
•
DOI:
- 10.1016/0370-2693(84)91557-0

Quantum black hole. I

Z.C. Wu
(
- Rome U. and
- Vatican Astron. Observ.
)

- Prog.Theor.Phys. 97 (1997) 859-871
•
DOI:
- 10.1143/PTP.97.859

Quantum black hole. II

Z.C. Wu
(
- Rome U. and
- Vatican Astron. Observ.
)

- Prog.Theor.Phys. 97 (1997) 873-880
•
DOI:
- 10.1143/PTP.97.873

Cosmological production of charged black hole pairs

Robert B. Mann
(
- Cambridge U.
)
,
Simon F. Ross
(
- Cambridge U.
)

- Phys.Rev.D 52 (1995) 2254-2265
•
e-Print:
- gr-qc/9504015
•
DOI:
- 10.1103/PhysRevD.52.2254

Duality between electric and magnetic black holes

S.W. Hawking
(
- Cambridge U.
)
,
Simon F. Ross
(
- Cambridge U.
)

- Phys.Rev.D 52 (1995) 5865-5876
•
e-Print:
- hep-th/9504019
•
DOI:
- 10.1103/PhysRevD.52.5865

Path Integral Derivation of Black Hole Radiance

J.B. Hartle
(
- UC, Santa Barbara and
- Caltech and
- Cambridge U.
)
,
S.W. Hawking
(
- UC, Santa Barbara and
- Caltech and
- Cambridge U.
)

- Phys.Rev.D 13 (1976) 2188-2203
•
DOI:
- 10.1103/PhysRevD.13.2188

Black Holes and Thermal Green's Functions

G.W. Gibbons
(
- Cambridge U.
)
,
M.J. Perry
(
- Cambridge U.
)

- Proc.Roy.Soc.Lond.A 358 (1978) 467-494,
•
DOI:
- 10.1098/rspa.1978.0022

Geometry and Thermofields

R. Laflamme
(
- Cambridge U.
)

- Nucl.Phys.B 324 (1989) 233-252
•
DOI:
- 10.1016/0550-3213(89)90191-0

Wavefunction of a Black Hole and the Dynamical Origin of Entropy

A.O. Barvinsky
(
- Alberta U. and
- Moscow, Nucl. Safety Inst.
)
,
Valeri P. Frolov
(
- Alberta U. and
- Lebedev Inst.
)
,
A.I. Zelnikov
(
- Alberta U. and
- Lebedev Inst.
)

- Phys.Rev.D 51 (1995) 1741-1763
•
e-Print:
- gr-qc/9404036
•
DOI:
- 10.1103/PhysRevD.51.1741

Quantum Field Theory in Schwarzschild and Rindler Spaces

David G. Boulware
(
- Washington U., Seattle
)

- Phys.Rev.D 11 (1975) 1404
•
DOI:
- 10.1103/PhysRevD.11.1404

The Origin of Structure in the Universe

J.J. Halliwell
(
- Cambridge U. and
- Munich, Max Planck Inst.
)
,
S.W. Hawking
(
- Cambridge U. and
- Munich, Max Planck Inst.
)

- Phys.Rev.D 31 (1985) 1777,
- Adv.Ser.Astrophys.Cosmol. 3 (1987) 277-291
•
DOI:
- 10.1103/PhysRevD.31.1777

On the Quantum State of Relic Gravitons

- Class.Quant.Grav. 6 (1989) L161-L165
•
DOI:
- 10.1088/0264-9381/6/9/002

Spin 1/2 Quantum Field Theory in Schwarzschild Space

David G. Boulware
(
- Washington U., Seattle
)

- Phys.Rev.D 12 (1975) 350
•
DOI:
- 10.1103/PhysRevD.12.350

Fermions in Quantum Cosmology

P.D. D'Eath
(
- Cambridge U.
)
,
J.J. Halliwell
(
- Cambridge U.
)

- Phys.Rev.D 35 (1987) 1100
•
DOI:
- 10.1103/PhysRevD.35.1100