Double neutron stars are one of the most promizing sources for terrestrial gravitational wave interferometers. For actual interferometers and their planned upgrades, the probability of having a signal present in the data is small, but as the sensitivity improves, the detection rate increases and the waveforms may start to overlap, creating a confusion background, ultimately limiting the capabilities of future detectors. The third generation Einstein Telescope, with an horizon of z>1 and very low frequency ``seismic wall'' may be affected by such confusion noise. At a minimum, careful data analysis will be require to separate signals which will appear confused. This result should be borne in mind when designing highly advanced future instruments.
@article{arxiv.0911.1043,
title = {Confusion background from compact binaries},
author = {T. Regimbau and Scott A. Hughes},
journal= {arXiv preprint arXiv:0911.1043},
year = {2014}
}
Comments
2 figures, 4 pages, Proceeding of the 8th Amaldi International Conference on Gravitational Waves,, NYC, july 2009