Astronomy and Astrophysics – Astrophysics
Scientific paper
2006-11-16
Astronomy and Astrophysics
Astrophysics
A&A accepted
Scientific paper
10.1051/0004-6361:20065858
The effect of gravitational microlensing on the intensity of gravitational radiation as it propagates through an inhomogeneous medium containing small-scale structure is considered. Lensing by both stars and a power law spectrum of density perturbations is examined. The long wavelengths characteristic of gravitational radiation mandate a statistical, physical-optics approach to treat the effect of stellar microlensing. A model for the mass power spectrum of a starfield, including the effects of clustering and allowing for a distribution of stellar masses, is constructed and used to determine both the amplitude of fluctuations in the gravitational wave strain and its associated temporal fluctuation spectrum. For a uniformly distributed starfield the intensity variance scales linearly with stellar density, sigma, but is enhanced by a factor >sigma r_F^2 when clustering is important, where r_F is the Fresnel scale. The effect of lensing by a power law mass spectrum is also considered. For spectra with indices steeper than -2 the wave amplitude exhibits rms fluctuations 1.3 < Delta Sigma^2 >^0.25 (D_eff/1 Gpc)^0.5 %, where
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