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S2 Bilinear Couplings Study

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1 S2 Bilinear Couplings Study
Vijay Chickarmane, Gabriela González Louisiana State University LSC meeting August 2003 Hannover, Germany LIGO-G Z

2 Bicoherence plane Low frequencies get upconverted by line
harmonics: 1.2Hz, 2.1Hz stack modes, vibrational modes of end test masses. A: Low freqs upconverted by 60, 120Hz. B: Features due to coherence between 60, 120 & 180, and the upconverted peaks. C: Due to Optical lever servo oscillations.(harmonics of 46.9Hz) Aug 20, 2003 LIGO-G Z

3 Bilinearity Index trends
Integrated bilinearity computed every 16s over 64sec with 0.5 Hz resolution in the f1-f2 plane Large outliers are due to glitches which spread energy over several frequencies! Aug 20, 2003 LIGO-G Z

4 Representative stretches
Aug 20, 2003 LIGO-G Z

5 Bilinearity “Glitch” Histograms
Low freqs around 60Hz and harmonics (60-60, ) Coupling between calibration line and Optical lever ETMY Analyze the f1-f2 plane for times with large variations in bilinearity trend. Aug 20, 2003 LIGO-G Z

6 Bicoherence Trends Bicoherence computed for 3hrs
stretch for several low freqs. Data window of 64s  slide over by 16s. Aug 20, 2003 LIGO-G Z

7 Bicoherence and inspiral triggers
Compute Bic with trigger vs Bic without trigger, analyze difference  Which couplings glitched?  Which channels to look at ? Bicoherence analysis of all S2 inspiral triggers with SNR > 10 analyzed, some examples. Results is a text file with the bi-freq glitches. Aug 20, 2003 LIGO-G Z

8 Looking for the source Demodulate the upconverted frequencies in suspect auxiliary channels. Ex: Plot of the amplitude of the 2.1 Hz line for oplev channels. Look for significant excursion around trigger time. Demodulation involves mixing at a certain freq + low pass filtering(LPF) LPF introduces phase delay, you can use other technique’s to “track” the lines. Ex: Here we use a Kalman Filter to track the 2.1 Hz line. Slight improvement seen. Aug 20, 2003 LIGO-G Z

9 Summary & Conclusions Analyzed Bicoherence of S2 LLO data for science stretches > 4hrs. Computed Bilinearity Index trends, Bilinearity “Glitch” Histograms, Bicoherence Trends. Characterized typical glitches seen as Inspiral triggers, due to upconversion. Need to understand mechanisms of upconversion simulations of detector  experimentally inject signals in seismic channels ect. Veto trigger: Study of trend low frequency peaks ? Aug 20, 2003 LIGO-G Z

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