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dc.contributor.authorBlanchet, Luceng
dc.contributor.authorKopeikin, Sergei M.eng
dc.contributor.authorSchafer, Gerhardeng
dc.date.issued2000eng
dc.description.abstractThe paper gives an introduction to the gravitational radiation theory of isolated sources and to the propagation properties of light rays in radiative gravitational fields. It presents a theoretical study of the generation, propagation, back-reaction, and detection of gravitational waves from astrophysical sources. After reviewing the various quadrupole-moment laws for gravitational radiation in the Newtonian approximation, we show how to incorporate post-Newtonian corrections into the source multipole moments, the radiative multipole moments at infinity, and the back-reaction potentials. We further treat the light propagation in the linearized gravitational field outside a gravitational wave emitting source. The effects of time delay, bending of light, and moving source frequency shift are presented in terms of the gravitational lens potential. Time delay results are applied in the description of the procedure of the detection of gravitational waves.eng
dc.identifier.citationarXiv:gr-qc/0008074v1eng
dc.identifier.urihttp://hdl.handle.net/10355/6984eng
dc.languageEnglisheng
dc.publisherarXiveng
dc.relation.ispartofcollectionUniversity of Missouri--Columbia. College of Arts and Sciences. Department of Physics and Astronomy. Physics and Astronomy publicationseng
dc.source.urihttp://arxiv.org/PS_cache/gr-qc/pdf/0008/0008074v1.pdfeng
dc.subjectgeneral relativityeng
dc.subjectquantum cosmologyeng
dc.subject.lcshLight -- Transmissioneng
dc.subject.lcshGravitational waveseng
dc.titleGravitational Radiation Theory and Light Propagationeng
dc.typeArticleeng


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