Kostas Glampedakis
Published 2005-09-07Version 1
In this review article I attempt to summarise past and present-ongoing-work on the problem of the inspiral of a small body in the gravitational field of a much more massive Kerr black hole. Such extreme mass ratio systems, expected to occur in galactic nuclei, will constitute prime sources of gravitational radiation for the future LISA gravitational radiation detector. The article's main goal is to provide a survey of basic celestial mechanics in Kerr spacetime and calculations of gravitational waveforms and backreaction on the small body's orbital motion, based on the traditional `flux-balance' method and the Teukolsky black hole perturbation formalism.
Comments: Invited review article, 45 pages, 23 figures
Journal: Class.Quant.Grav. 22 (2005) S605-S659
Two timescale analysis of extreme mass ratio inspirals in Kerr. I. Orbital Motion
Self-force on extreme mass ratio inspirals via curved spacetime effective field theory
Comparison of post-Newtonian templates for extreme mass ratio inspirals
