Thorne, Kip S. (1980) Multipole expansions of gravitational radiation. Reviews of Modern Physics, 52 (2). pp. 299339. ISSN 00346861. https://resolver.caltech.edu/CaltechAUTHORS:THOrmp80a

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Abstract
This paper brings together, into a single unified notation, the multipole formalisms for gravitational radiation which various people have constructed. It also extends the results of previous workers. More specifically: Part One of this paper reviews the various scalar, vector, and tensor spherical harmonics used in the general relativity literature—including the ReggeWheeler harmonics, the symmetric, tracefree ("STF") tensors of Sachs and Pirani, the NewmanPenrose spinweighted harmonics, and the MathewsZerilli ClebschGordancoupled harmonics—which include "pureorbital" harmonics and "purespin" harmonics. The relationships between the various harmonics are presented. Part One then turns attention to gravitational radiation. The concept of "local wave zone" is introduced to facilitate a clean separation of "wave generation" from "wave propagation." The generic radiation field in the local wave zone is decomposed into multipole components. The energy, linear momentum, and angular momentum in the waves are expressed as infinite sums of multipole contributions. Attention is then restricted to sources that admit a nonsingular, spacetimecovering de Donder coordinate system. (This excludes black holes.) In such a coordinate system the multipole moments of the radiation field are expressed as volume integrals over the source. For slowmotion systems, these source integrals are reexpressed as infinite power series in L / λ≡(size of source ) / (reduced wavelength of waves ). The slowmotion source integrals are then specialized to systems with weak internal gravity to yield (i) the standard Newtonian formulas for the multipole moments, (ii) the postNewtonian formulas of Epstein and Wagoner, and (iii) postpostNewtonian formulas. Part Two of this paper derives a multipolemoment wavegeneration formalism for slowmotion systems with arbitrarily strong internal gravity, including systems that cannot be covered by de Donder coordinates. In this formalism one calculates, by any means, the source's instantaneous, nearzone, external gravitational field as a solution of the timeindependent Einstein field equations. One then reads off of this nearzone field the source's instantaneous multipole moments; and one plugs those timeevolving moments into the standard radiation formulae given in Part One of this paper. As building blocks for this formalism, Part Two also does the following things: (1) In the linearized theory of gravity, for the vacuum exterior of an isolated system, it derives the general solution of the field equations (a result due to Sachs, Bergmann, and Pirani). (2) In full nonlinear general relativity, for the vacuum nearzone exterior of an isolated system, it derives the structure of the general solution of the Einstein field equations. That structure is expressed as a sum of products of multipole contributions. It also matches this nearzone field onto an outgoingwave radiation field. (3) In full nonlinear general relativity, for the vacuum exterior of a stationary isolated system, (a) it presents a definition of multipole moments which meshes naturally with gravitationalwave theory; (b) it introduces the concept of "asymptotically Cartesian and mass centered" (ACMC) coordinate systems; and (c) it shows how to deduce the multipole moments of a source from the form of its metric in an ACMC coordinate system. As an example, the lowest few (l ≤ 3) multipole moments of the Kerr metric are computed.
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Additional Information:  © 1980 by The American Physical Society. For helpful discussions during the early stages of this work I thank James R. Ipser. Supported in part by the National Science Foundation [AST7680801 A02 and AST7521153]. An earlier version of this paper was preprinted in 1977 by Cornell University in two parts: CRSR 663 “The Generation of Gravitational Waves V. MultipoleMoment Formalisms,” and CRSR 664 “The Generation of Gravitational Waves VI. StrongField, SlowMotion Sources.”  
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Issue or Number:  2  
Record Number:  CaltechAUTHORS:THOrmp80a  
Persistent URL:  https://resolver.caltech.edu/CaltechAUTHORS:THOrmp80a  
Usage Policy:  No commercial reproduction, distribution, display or performance rights in this work are provided.  
ID Code:  11159  
Collection:  CaltechAUTHORS  
Deposited By:  Tony Diaz  
Deposited On:  23 Jul 2008 04:56  
Last Modified:  03 Oct 2019 00:16 
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