Volume and area renormalizations for conformally compact Einstein metrics

Graham, Robin C.

  • Proceedings of the 19th Winter School "Geometry and Physics", Publisher: Circolo Matematico di Palermo(Palermo), page 31-42

Abstract

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Let X be the interior of a compact manifold X ¯ of dimension n + 1 with boundary M = X , and g + be a conformally compact metric on X , namely g ¯ r 2 g + extends continuously (or with some degree of smoothness) as a metric to X , where r denotes a defining function for M , i.e. r > 0 on X and r = 0 , d r 0 on M . The restrction of g ¯ to T M rescales upon changing r , so defines invariantly a conformal class of metrics on M , which is called the conformal infinity of g + . In the present paper, the author considers conformally compact metrics satisfying the Einstein condition Ric ( g + ) = - n g + , which are called conformally compact Einstein metrics on X , and their extensions to X together with the restrictions of g ¯ to the boundary M = X . First, the author notes that a representative metric g on M for the conformal infinity of a conformally compact Einstein metric

How to cite

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Graham, Robin C.. "Volume and area renormalizations for conformally compact Einstein metrics." Proceedings of the 19th Winter School "Geometry and Physics". Palermo: Circolo Matematico di Palermo, 2000. 31-42. <http://eudml.org/doc/221675>.

@inProceedings{Graham2000,
abstract = {Let $X$ be the interior of a compact manifold $\overline\{X\}$ of dimension $n+1$ with boundary $M=\partial X$, and $g_+$ be a conformally compact metric on $X$, namely $\overline\{g\}\equiv r^2g_+$ extends continuously (or with some degree of smoothness) as a metric to $X$, where $r$ denotes a defining function for $M$, i.e. $r>0$ on $X$ and $r=0$, $dr\ne 0$ on $M$. The restrction of $\overline\{g\}$ to $TM$ rescales upon changing $r$, so defines invariantly a conformal class of metrics on $M$, which is called the conformal infinity of $g_+$. In the present paper, the author considers conformally compact metrics satisfying the Einstein condition Ric$(g_+)=-ng_+$, which are called conformally compact Einstein metrics on $X$, and their extensions to $X$ together with the restrictions of $\overline\{g\}$ to the boundary $M=\partial X$. First, the author notes that a representative metric $g$ on $M$ for the conformal infinity of a conformally compact Einstein metric},
author = {Graham, Robin C.},
booktitle = {Proceedings of the 19th Winter School "Geometry and Physics"},
keywords = {Proceedings; Winter school; Geometry; Physics; Srní (Czech Republic)},
location = {Palermo},
pages = {31-42},
publisher = {Circolo Matematico di Palermo},
title = {Volume and area renormalizations for conformally compact Einstein metrics},
url = {http://eudml.org/doc/221675},
year = {2000},
}

TY - CLSWK
AU - Graham, Robin C.
TI - Volume and area renormalizations for conformally compact Einstein metrics
T2 - Proceedings of the 19th Winter School "Geometry and Physics"
PY - 2000
CY - Palermo
PB - Circolo Matematico di Palermo
SP - 31
EP - 42
AB - Let $X$ be the interior of a compact manifold $\overline{X}$ of dimension $n+1$ with boundary $M=\partial X$, and $g_+$ be a conformally compact metric on $X$, namely $\overline{g}\equiv r^2g_+$ extends continuously (or with some degree of smoothness) as a metric to $X$, where $r$ denotes a defining function for $M$, i.e. $r>0$ on $X$ and $r=0$, $dr\ne 0$ on $M$. The restrction of $\overline{g}$ to $TM$ rescales upon changing $r$, so defines invariantly a conformal class of metrics on $M$, which is called the conformal infinity of $g_+$. In the present paper, the author considers conformally compact metrics satisfying the Einstein condition Ric$(g_+)=-ng_+$, which are called conformally compact Einstein metrics on $X$, and their extensions to $X$ together with the restrictions of $\overline{g}$ to the boundary $M=\partial X$. First, the author notes that a representative metric $g$ on $M$ for the conformal infinity of a conformally compact Einstein metric
KW - Proceedings; Winter school; Geometry; Physics; Srní (Czech Republic)
UR - http://eudml.org/doc/221675
ER -

Citations in EuDML Documents

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  1. C. Robin Graham, Maciej Zworski, Scattering matrix in conformal geometry
  2. Eric Bahuaud, Rafe Mazzeo, Eric Woolgar, Renormalized volume and the evolution of APEs
  3. Antônio Sá Barreto, Jared Wunsch, The radiation field is a Fourier integral operator
  4. Colin Guillarmou, Scattering and resolvent on geometrically finite hyperbolic manifolds with rational cusps
  5. Olivier Biquard, Marc Herzlich, Michel Rumin, Diabatic limit, eta invariants and Cauchy–Riemann manifolds of dimension 3
  6. Julie Rowlett, On the spectral theory and dynamics of asymptotically hyperbolic manifolds

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