Stability in Exponential Time of Minkowski Space–Time with a Translation Space-Like Killing Field

Cécile Huneau

doi:10.1007/s40818-016-0012-6

Stability in Exponential Time of Minkowski Space–Time with a Translation Space-Like Killing Field

Cécile Huneau

LTHE (UMR 5564 CNRS/IRD/Université de Grenoble)

Research output: Contribution to journal › Article › peer-review

Abstract

In this paper, we prove the nonlinear stability in exponential time of Minkowki space-time with a translation space-like Killing field. In the presence of such a symmetry, the 3+1 vacuum Einstein equations reduce to the 2 + 1 Einstein equations with a scalar field. We work in generalised wave coordinates. In this gauge the Einstein equations can be written as a system of quasilinear quadratic wave equations. The main difficulty in this paper is due to the decay in 1t of free solutions to the wave equation in 2 dimensions, which is weaker than in 3 dimensions. As in [21], we have to rely on the particular structure of the Einstein equations in wave coordinates. We also have to carefully choose the behaviour of our metric in the exterior region to enforce convergence to Minkowski space-time at time-like infinity.

Original language	English
Article number	7
Journal	Annals of PDE
Volume	2
Issue number	1
DOIs	https://doi.org/10.1007/s40818-016-0012-6
Publication status	Published - 1 Jun 2016
Externally published	Yes

Keywords

Bootstrap Assumption
Coordinated Wave Propagation
Null Structure
Time-like Inﬁnity
Weighted Energy Estimates

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10.1007/s40818-016-0012-6

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title = "Stability in Exponential Time of Minkowski Space–Time with a Translation Space-Like Killing Field",

abstract = "In this paper, we prove the nonlinear stability in exponential time of Minkowki space-time with a translation space-like Killing field. In the presence of such a symmetry, the 3+1 vacuum Einstein equations reduce to the 2 + 1 Einstein equations with a scalar field. We work in generalised wave coordinates. In this gauge the Einstein equations can be written as a system of quasilinear quadratic wave equations. The main difficulty in this paper is due to the decay in 1t of free solutions to the wave equation in 2 dimensions, which is weaker than in 3 dimensions. As in [21], we have to rely on the particular structure of the Einstein equations in wave coordinates. We also have to carefully choose the behaviour of our metric in the exterior region to enforce convergence to Minkowski space-time at time-like infinity.",

keywords = "Bootstrap Assumption, Coordinated Wave Propagation, Null Structure, Time-like Inﬁnity, Weighted Energy Estimates",

author = "C{\'e}cile Huneau",

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year = "2016",

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doi = "10.1007/s40818-016-0012-6",

language = "English",

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journal = "Annals of PDE",

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T1 - Stability in Exponential Time of Minkowski Space–Time with a Translation Space-Like Killing Field

AU - Huneau, Cécile

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N2 - In this paper, we prove the nonlinear stability in exponential time of Minkowki space-time with a translation space-like Killing field. In the presence of such a symmetry, the 3+1 vacuum Einstein equations reduce to the 2 + 1 Einstein equations with a scalar field. We work in generalised wave coordinates. In this gauge the Einstein equations can be written as a system of quasilinear quadratic wave equations. The main difficulty in this paper is due to the decay in 1t of free solutions to the wave equation in 2 dimensions, which is weaker than in 3 dimensions. As in [21], we have to rely on the particular structure of the Einstein equations in wave coordinates. We also have to carefully choose the behaviour of our metric in the exterior region to enforce convergence to Minkowski space-time at time-like infinity.

AB - In this paper, we prove the nonlinear stability in exponential time of Minkowki space-time with a translation space-like Killing field. In the presence of such a symmetry, the 3+1 vacuum Einstein equations reduce to the 2 + 1 Einstein equations with a scalar field. We work in generalised wave coordinates. In this gauge the Einstein equations can be written as a system of quasilinear quadratic wave equations. The main difficulty in this paper is due to the decay in 1t of free solutions to the wave equation in 2 dimensions, which is weaker than in 3 dimensions. As in [21], we have to rely on the particular structure of the Einstein equations in wave coordinates. We also have to carefully choose the behaviour of our metric in the exterior region to enforce convergence to Minkowski space-time at time-like infinity.

KW - Bootstrap Assumption

KW - Coordinated Wave Propagation

KW - Null Structure

KW - Time-like Inﬁnity

KW - Weighted Energy Estimates

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DO - 10.1007/s40818-016-0012-6

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SN - 2524-5317

VL - 2

JO - Annals of PDE

JF - Annals of PDE

IS - 1

M1 - 7

ER -

Stability in Exponential Time of Minkowski Space–Time with a Translation Space-Like Killing Field

Abstract

Keywords

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