On Friday 16th of August I measured the residual motion of the optic in ALIGNED state. There was a typhoon in the neighborhood.
In ALIGNED state the optic longitudinal RMS displacement and velocity DO NOT fulfill the requirement. Additionally, the yaw displacement seemed to be the same in bad weather conditions.
This table shows the integrated RMS displacement for each degree of freedom and the requirement.
|Degree of freedom||ALIGNED||Requirement||klog 9702|
|Longitudinal displacement||0.87 µm||0.4 µm||0.2 µm|
|Longitudinal velocity||1.35 µm/s||0.5 µm/s||0.2 µm/s|
|Pitch displacement||0.30 µrad||1 µrad||0.15 µrad|
|Yaw displacement||0.27 µrad||1 µrad||0.27 µrad|
- There's no Inertial damping.
- There's high coherence with the IP motion measured with the LVDTs from 0.130 Hz up to 0.7 Hz. See plots attached.
- With IM-L there's coherence at 0.2 Hz and 0.7 Hz.
- With IM-P there's coherence at 0.2 Hz to 0.8 Hz.
- Directory: /kagra/Dropbox/Subsystems/VIS/TypeBData/SR3/Noise/Measurements/20190816/
- File for ALIGNED state: SR3_ALIGNED_TM_OPLEV_ASD_190816_1565939728.xml
- Bandwidth of the displacement measurement' from 0.010 Hz to 800 Hz.
- The bandwidth of the optic velocity measurement was from 0.010 Hz to 10 Hz. Above 10 Hz there is a lot of noise which I don't believe is real displacement of the optic. The peaks are likely related to the oplev optics support platform
- Related entries: 9702.