Non-linear instability of Kerr-type Cauchy horizons

A. Bonanno; A. Ori; A. Ori; C. Barrabès; C. Gundlach; C. Gundlach; C.G. Torre; Chris M. Chambers; E. Poisson; J. Smallwood; J.M. McNamara; M. Simpson; M.L. Gnedin; Patrick R. Brady; R. Balbinot; R. Penrose; R.A. d'Inverno; R.A. d'Inverno; R.A. Isaacson; R.H. Price; R.M. Wald; S. Chandrasekhar; S. Chandrasekhar; S.A. Hayward; S.A. Hayward; U. Yurtsever; W.A. Hiscock

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Non-linear instability of Kerr-type Cauchy horizons

Authors: A. Bonanno
A. Ori
A. Ori
C. Barrabès
C. Gundlach
C. Gundlach
C.G. Torre
Chris M. Chambers
E. Poisson
J. Smallwood
J.M. McNamara
M. Simpson
M.L. Gnedin
Patrick R. Brady
R. Balbinot
R. Penrose
R.A. d'Inverno
R.A. d'Inverno
R.A. Isaacson
R.H. Price
R.M. Wald
S. Chandrasekhar
S. Chandrasekhar
S.A. Hayward
S.A. Hayward
U. Yurtsever
W.A. Hiscock
Publication date: 21 January 1995
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Using the general solution to the Einstein equations on intersecting null surfaces developed by Hayward, we investigate the non-linear instability of the Cauchy horizon inside a realistic black hole. Making a minimal assumption about the free gravitational data allows us to solve the field equations along a null surface crossing the Cauchy Horizon. As in the spherical case, the results indicate that a diverging influx of gravitational energy, in concert with an outflux across the CH, is responsible for the singularity. The spacetime is asymptotically Petrov type N, the same algebraic type as a gravitational shock wave. Implications for the continuation of spacetime through the singularity are briefly discussed.Comment: 11 pages RevTeX, two postscript figures included using epsf.st

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