Active noise cancellation in a suspended interferometer
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We demonstrate feed-forward vibration isolation on a suspended Fabry-Perot interferometer using Wiener filtering and a variant of the common Least Mean Square (LMS) adaptive filter algorithm. We compare the experimental results with theoretical estimates of the cancellation efficiency. Using data from the recent LIGO Science Run, we also estimate the impact of this technique on full scale gravitational wave interferometers. In the future, we expect to use this technique to also remove acoustic, magnetic, and gravitational noise perturbations from the LIGO interferometers. This noise cancellation technique is simple enough to implement in standard laboratory environments and can be used to improve SNR for a variety of high precision experiments.
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Cited by 1 Pith paper
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Nonlinear Independent Component Analysis Scheme and its application to gravitational wave data analysis
A nonlinear ICA method is derived to estimate general quadratic noise coupling and tested on simulated data plus real KAGRA gravitational wave strain.
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