In a recent table-top experiment we demonstrated the compatibility of three advanced interferometer techniques for gravitational wave detection, namely power-recycling, detuned signal-recycling and squeezed field injection. The interferometer's signal to noise ratio was improved by up to 2.8 dB beyond the coherent state's shot-noise. This value was mainly limited by optical losses on the squeezed field. We present a detailed analysis of the optical losses of in our experiment and provide an estimation of the possible nonclassical performance of a future squeezed field enhanced GEO600 detector.
@article{arxiv.0707.0184,
title = {Squeezed-field injection for gravitational wave interferometers},
author = {Henning Vahlbruch and Simon Chelkowski and Boris Hage and Alexander Franzen and Karsten Danzmann and Roman Schnabel},
journal= {arXiv preprint arXiv:0707.0184},
year = {2009}
}