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Status of LIGO Andri M. Gretarsson Livingston Observatory LIGO-G040248-00-L.

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Presentation on theme: "Status of LIGO Andri M. Gretarsson Livingston Observatory LIGO-G040248-00-L."— Presentation transcript:

1 Status of LIGO Andri M. Gretarsson Livingston Observatory LIGO-G040248-00-L

2 Timeline Now First Science Data Inauguration 1999 20002001 20022003 E1 Engineering E2 E3 E4E5E6 E7 E8 E9 S1 Science S2S3 First LockFull Lock all IFO's 10 -17 10 -18 10 -19 10 -20 strain noise density @ 200 Hz [Hz -1/2 ] 10 -21 Runs 10 -22 2004 E10 10 -22

3 Commissioning Progress

4 Aug 03 Commissioning Progress (2) Feb 03 Aug 02 Jan 02 May 01 Feb 04

5 S3...best yet S2 2 nd Science Run Feb - Apr 03 (59 days) S1 1 st Science Run Sept 02 (17 days) S3 3 rd Science Run Nov 03 – Jan 04 (70 days) LIGO Target Sensitivity S3 Duty Cycle Hanford 4km 69% Hanford 2km 63% Livingston 4 km 22%* * Limited by high ground noise

6 BNS inspiral range (8 sigma, average direction)

7 S1 results are “out” Papers by the LIGO Science Collaboration (~370 authors, 40 institutions): “Detector Description and Performance for the First Coincident Observations between LIGO and GEO”, Nucl.Instrum.Meth. A517 (2004) 154- 179, gr-qc/0308043 “Setting upper limits on the strength of periodic gravitational waves using the first science data from the GEO600 and LIGO detectors” gr-qc/0308050, accepted for publication in PRD “Analysis of LIGO data for gravitational waves from binary neutron stars”, gr-qc/0308069, being reviewed by PRD “First upper limits from LIGO on gravitational wave bursts ”, gr- qc/0312056, accepted for publication in PRD “Analysis of First LIGO Science Data for Stochastic Gravitational Waves”, gr-qc/0312088, submitted for publication in PRD S2 analysis in progress, S3 data awaits...! See Stan Whitcomb’s talk.

8 Sensitivity improvements in the past year (or so) More wavefront sensors on-line (esp. H1) Reduced acoustic coupling Power increase Adaptive LSC gains On H1, found DC alignment sweet-spot (using QPD offset) Linear power supplies...many many smaller things leading to significant broadband noise reduction (esp. H1)

9 WFS system (mostly) running wavefront sensor degree of freedom light sampled Like LSC sensor WFS 1ETMdASAS_Q WFS 2AITMcPOYPOB_I WFS 2BITMdPOYPOB_Q WFS 3MMTREFLREFL_I WFS 4ETMcREFLREFL_I

10 Effect of wavefront sensors 20 min

11 Effect of wavefront sensors (2) 7 hrs 11 hrs

12 Acoustic Mitigation Primary sources: »Building HVAC »Electronics cooling fans Removed microphonic optics (clipping) »opened to 2” clear aperture at critical locations »EO shutters removed at ISCT4 and ISCT1 »stiffened & damped beam delivery periscopes Installed acoustic enclosures on dark ports Results: »>10x from reducing clipping ~10x from acoustic enclosure »No acoustic peaks left in S3 spectra and reduced broadband in H1 in the decade around ~100 Hz »H1 - H2 correlations substantially reduced

13 Acoustic Mitigation (2) S2 S3 with acoustic injections at ISCT4 with acoustic injections at ISCT4 and ISCT1 Microphone: normal with injections Displacement Spectra

14 H1-H2 Correlations Reduced

15 Power increase LHO: 0.8 T 2.0 W LLO: 1.6 T 4.2 W nspob (cts) Input power (Watts) LHO

16 Vacuum incursions LHO 2k ITMX replaced in April 2003 due to damaged AR coating LHO 2k MMT1 reinstalled June 2003 after suspension wire failure LLO ITMY moved by 2 cm in July 2003 to optimize recycling cavity length w=26 +/- 4 mm (at y = 1 mm) Beam intensity width = 23 mm ?

17 The coming year Improvements to current systems »HEPI »More power »Increase WFS bandwidth and turn off optical levers »Electronics EMI/RFI and acoustic mitigation –move racks –separate analog/digital parts, –new RFI-proof racks New systems/configurations »Output modecleaner »Thermal compensation system »Photon Calibrator »Cesium clock timing

18 Rack relocation and analog-digital separation

19 LLO seismic noise amelioration badly needed PRE-ISOLATOR REQUIREMENT (95% of the time) Livingston Hanford RMS motion in 1-3 Hz band l Anthropogenic » Mostly logging and trains » Science data only available at night » Even night-level alignment fluctuations cause significant non-stationarity l Microseism due to ocean waves » Locking difficult/impossible for several days at a time » worse in winter (high- microseism activity several times/month) meters Locking Threshold

20 ~6 months install period for hydraulic external pre- isolators Prototype tested at Stanford and MIT Fabrication nearly complete, installation just beginning HEPI MIT test OFFLOAD SPRINGS HYDRAULIC LINES & VALVES CROSSBEAM PIER HYDRAULIC ACTUATOR ( HORIZONTAL )

21 TCS is needed for proper thermal lensing Original "point design" depends on specific, balanced thermal lensing Sidebands aren’t properly matched into the recycing cavity without the thermal lens RF sideband efficiency found to be very low »H1 efficiency: ~6% (anti-symmetric port relative to input) DC (carrier)RF Bad mode overlap

22 Initial thermal compensation system Modify the test mass radii of curvature by adding/subtracting appropriate thermal lens correct absorption mismatches between test masses and (possibly) absorbtion inhomogeneities

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