Boundary terms unbound! Holographic renormalization of asymptotically linear dilaton gravity

Robert A McNees; Robert Mann

doi:10.1088/0264-9381/27/6/065015

Boundary terms unbound! Holographic renormalization of asymptotically linear dilaton gravity

Robert A McNees, Robert Mann

Department of Physics

University of Waterloo, Perimeter Institute

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

Abstract

A variational principle is constructed for gravity coupled to an asymptotically linear dilaton and a p -form field strength. This requires the introduction of appropriate surface terms—also known as 'boundary counterterms'—in the action. The variation of the action with respect to the boundary metric yields a boundary stress tensor, which is used to construct conserved charges that generate the asymptotic symmetries of the theory. In most cases a minimal set of assumptions leads to a unique set of counterterms. However, for certain examples we find families of actions that depend on one or more continuous parameters. We show that the conserved charges and the value of the on-shell action are always independent of these parameters.

Original language	American English
Journal	Physics: Faculty Publications and Other Works
Volume	27
Issue number	6
DOIs	https://doi.org/10.1088/0264-9381/27/6/065015
State	Published - Jun 1 2010

Keywords

Supergravity
Holography
Holographic Renormalization

Disciplines

Cosmology, Relativity, and Gravity
Elementary Particles and Fields and String Theory
Physics

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10.1088/0264-9381/27/6/065015License: Unspecified

http://iopscience.iop.org/0264-9381/27/6/065015/

Cite this

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title = "Boundary terms unbound! Holographic renormalization of asymptotically linear dilaton gravity",

abstract = " A variational principle is constructed for gravity coupled to an asymptotically linear dilaton and a p -form field strength. This requires the introduction of appropriate surface terms—also known as 'boundary counterterms'—in the action. The variation of the action with respect to the boundary metric yields a boundary stress tensor, which is used to construct conserved charges that generate the asymptotic symmetries of the theory. In most cases a minimal set of assumptions leads to a unique set of counterterms. However, for certain examples we find families of actions that depend on one or more continuous parameters. We show that the conserved charges and the value of the on-shell action are always independent of these parameters.",

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N2 - A variational principle is constructed for gravity coupled to an asymptotically linear dilaton and a p -form field strength. This requires the introduction of appropriate surface terms—also known as 'boundary counterterms'—in the action. The variation of the action with respect to the boundary metric yields a boundary stress tensor, which is used to construct conserved charges that generate the asymptotic symmetries of the theory. In most cases a minimal set of assumptions leads to a unique set of counterterms. However, for certain examples we find families of actions that depend on one or more continuous parameters. We show that the conserved charges and the value of the on-shell action are always independent of these parameters.

AB - A variational principle is constructed for gravity coupled to an asymptotically linear dilaton and a p -form field strength. This requires the introduction of appropriate surface terms—also known as 'boundary counterterms'—in the action. The variation of the action with respect to the boundary metric yields a boundary stress tensor, which is used to construct conserved charges that generate the asymptotic symmetries of the theory. In most cases a minimal set of assumptions leads to a unique set of counterterms. However, for certain examples we find families of actions that depend on one or more continuous parameters. We show that the conserved charges and the value of the on-shell action are always independent of these parameters.

KW - Supergravity

KW - Holography

KW - Holographic Renormalization

UR - https://ecommons.luc.edu/physics_facpubs/3

UR - http://iopscience.iop.org/0264-9381/27/6/065015/

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DO - 10.1088/0264-9381/27/6/065015

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JO - Physics: Faculty Publications and Other Works

JF - Physics: Faculty Publications and Other Works

IS - 6

ER -

Boundary terms unbound! Holographic renormalization of asymptotically linear dilaton gravity

Abstract

Keywords

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