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The gravitational field in a neighborhood of a particle of small mass moving through curved spacetime is naturally decomposed into two parts each of which satisfies the perturbed Einstein equations through O (). One part is an inhomogeneous field which looks like the /r field tidally distorted by the local Riemann tensor. The other part is a homogeneous field that completely determines the self-force of the particle interacting with its own gravitational field, which changes the worldline at O () and includes the effects of radiation reaction. Surprisingly, a local observer measuring the gravitational field in a neighborhood of a freely moving particle sees geodesic motion of the particle in a perturbed vacuum geometry and would be unaware of the existence of radiation at O (). In the light of all previous work this is quite an unexpected result.
Detweiler et al. (Tue,) studied this question.
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