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1 Environmental Disturbances: S4 and Pre-S5 Robert Schofield, U of O Doug Cook, Fred Raab, Richard McCarthy, LHO I.Seismic up-conversion II.Some peak identification.

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Presentation on theme: "1 Environmental Disturbances: S4 and Pre-S5 Robert Schofield, U of O Doug Cook, Fred Raab, Richard McCarthy, LHO I.Seismic up-conversion II.Some peak identification."— Presentation transcript:

1 1 Environmental Disturbances: S4 and Pre-S5 Robert Schofield, U of O Doug Cook, Fred Raab, Richard McCarthy, LHO I.Seismic up-conversion II.Some peak identification for upper limits groups - VME produced - seismic/acoustic III. Seismic/acoustic mitigation -acoustic enclosures -floating the H2 dark port

2 2 Up-conversion of low frequency seismic noise seismic noise from distant excavation night spectrum excites stack modes in AS_Q up-conversion reduces interferometer sensitivity night spectrum

3 3 DARM injection does not produce up-conversion. shaking ground at 1.2 Hz moves optic and produces up-conversion larger optic motion from actuator injection does not result in up-conversion

4 4 Up-conversion with injection to mimic pitch during wind Optical lever during periods of wind, quiet and actuator injections to “match” wind. 70-100 Hz band in AS_Q showing up-conversion during wind and actuator injection.

5 5 Up-conversion depends on stack motion not floor motion. Small shaker on cross-beam and large shaker on floor adjusted to produce similar optic motion......produce similar up-conversion even though floor motion differs by 10.

6 6 Ground shaking to excite specific motions Red: mainly beam-axis; Blue: mainly side-to side; Black: no shaking Beam-axis (AS_Q) Yaw (from optical lever) Pitch (optical lever) Side (from shadow sensor)

7 7 Side-to-side shaking does not produce up-conversion. Ground shaking that produces beam-axis motion produces up-conversion, but shaking that produces side-to-side motion does not.

8 8 Up-conversion for different shaking amplitudes 30 um/s rms 3 um/s rms

9 9 Up-conversion similar at LHO ETMs; is it similar at ITMs and LLO at similar velocities? LHO ETMX LHO ITMY (due to MICH) Brian’s LLO ETMX measurement

10 10 Brian O’Reilly’s recent LLO measurements

11 11 Simple model doesn’t explain tail Predicted cutoff ~52 Hz Predicted cutoff ~12 Hz Tail not proportional to velocity (differs from single frequency injections)

12 12 Possible sources of up-conversion back-scattering from output telescope: consistent with lack of up-conversion for side-to side brushing cables on test mass support structure - not consistent with side-to side back-scattering from optic- support structure – but why not also from BSC back wall? optic support wire at clamps

13 13 S4 H1-H2 coherence peak identification for stochastic group 133 Hz: Neslab PSL chillers330 Hz HVAC turbine SF01

14 14 Pulsars in VME crates (harmonics of 70.12 Hz) Blue: VME crate on, but 7751 CPU board disconnected Black: 7751 CPU on but code not running magnetometer near VME crate detects pulsar candidate frequencies. Magnetometers elsewhere don’t. Red: normal operation of VME crate

15 15 Coherence between AS_Q and VME magnetometer Broad-band coherence 108 Hz peak magnetometer

16 16 108 Hz peak moves with air-flow to fans Blue: normal air; Red: extra air

17 17 108 Hz peak goes away when power supply fan disconnected.

18 18 Acoustic enclosures for LHO reflected port by S5 Acoustic coupling at ISCT4 was reduced beyond expectations, making it worth while to enclose what was the second worst coupling site – the reflected port. We have also ordered an enclosure for the H2 REFL port, though we don’t expect improvement.

19 19 ISCT10 floated yesterday, velocity down more than 10

20 20 Summary I.Seismic Up-conversion a. several types, focus on the anthropogenic type characterized by b. b. not reproduced by DARM injections c. not produced by side-to-side motions; possibly not by yaw (n=1) d. looks like back-scattering, at least at large amplitudes e. similar at LHO ETMX and ETMY, as well as LLO ETMX, MICH noise dominates LHO ITMY f. at least at LHO noise starts showing up at a few times background, which is not atypical of seismic transients II.Peak identification a. 70.12 from crate controller b. 108 from crate power supply fan c. 133 from chiller d. 330 from HVAC turbine III.Acoustic/seismic mitigation a. acoustic enclosures for LHO dark port are on their way b. H2 dark port is now floating – more than 10 reduction in velocity, should reduce H1-H2 coherence, range increased 0.5 Mpc

21 21

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