A study on motion reduction for suspended platforms used in gravitational wave detectors
S. M. Koehlenbeck, C. M. Mow–Lowry, G. Bergmann, Robin Kirchoff, Philip Koch, G Kühn, Johannes Lehmann, Patrick Oppermann, Janis Wöhler, D. S. Wu
Abstract
We report a reduction in motion for suspended seismic-isolation platforms in a gravitational wave detector prototype facility. We sense the distance between two seismic-isolation platforms with a suspension platform interferometer and the angular motion with two optical levers. Feedback control loops reduce the length changes between two platforms separated by [Formula: see text] to [Formula: see text] at [Formula: see text], and the angular motion of each platform is reduced to [Formula: see text] at [Formula: see text]. As a result, the length fluctuations in a suspended optical resonator on top of the platforms is reduced by three orders of magnitude. This result is of direct relevance to gravitational wave detectors that use similar suspended optics and seismic isolation platforms.