ligo-g040226-00-z the status of virgo e. tournefier for the virgo collaboration gwadw 2004, aspen...
TRANSCRIPT
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LIGO-G040226-00-Z
The Status of VIRGO
E. Tournefier for the Virgo Collaboration
GWADW 2004, Aspen
• From the CITF to VIRGO
• Commissioning of the Fabry-Perot cavities
• Next steps
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LIGO-G040226-00-Z
The CITF
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LIGO-G040226-00-Z
The CITF commissioning
• June 01-July 02: Central ITF (CITF) commissioning -> 5 engineering runs
E0, E1: MichelsonE2, E3, E4: Recycled Michelson
Frequency(Hz)
Dis
plac
emen
t sen
siti
vity
(m
/H
z)
E0 (September 2001)
E1
E2
E3E4 (July 2002)
Virgo
E4 Shot noise
CITF design s. noise
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LIGO-G040226-00-Z
From the CITF to VIRGO: upgrades
A lot of experience gained with the CITF Problems detected -> several improvements have been prepared for
VIRGO
Aug 02: Shutdown for the Virgo installation and upgrades
Install the Virgo mirrors Connect the tubes and install the terminal towers Change beam size, modulation frequency
Upgrade the Input mode cleaner Upgrade the control of the suspensions
• Jul 03: end of installation• Aug 03: start the commissioning
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LIGO-G040226-00-Z
The Mirrors
• Coater VIRGO in a class 1 clean room, unique in the world (2.2*2.2*2.4 m)
• Coating features:– very low losses: scattering ~ 5 ppm, absorption ~ 1 ppm– Uniformity on large dimension: less than 10-3 variation on 350 mm
The first VIRGO mirror
Assembly of the NI mirror
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The mirror suspensions
The superattenuator is expected to provide an attenuation of 1014 at 10 Hz
3 actuation points:- Inertial damping of the Inverted Pendulum - Local control of the marionnetta- Damping of the mirror motion
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LIGO-G040226-00-Z
Control of the top stage:
• Horizontal damping using Lvdt’s and accelerometers (improved to reduce re-introduction of noise by Lvdt’s)
Typical rms horizontal displacement of the top stage: 1m
Inverted pendulum motionon 24 hrs
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LIGO-G040226-00-Z
Control of the vertical motion:
Important for Power Recycling mirror: it acts as a lens
• Vertical control using Lvdt (new)
Vertical elongation of PR suspension
No control
Air cond improved
vertical control
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LIGO-G040226-00-Z
Tide control from the top stage:
• Tide control tested on CITF, to be implemented for Virgo: reallocate the locking force from the mirror to the top stage -> smaller force on mirror -> lower noise from actuator
3.5 mN
Force applied to mirror
No feedback to top stage
with feedback to top stage
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LIGO-G040226-00-Z
Local control of the Marionetta and of the mirror: - laser diode coupled to a camera or a PSD device: new on the Marionetta
• The angular readout is done from the marionetta (new) and the mirror• The correction is sent to the marionetta
-> typical rms angular motion of the mirror: 1 rad (see E. Majorana’s talk)
Marionetta
PSD
Laser diode
Mirror
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LIGO-G040226-00-Z
The injection system
Upgrades:
• Change laser: 10W -> 20 W• Move the Mode Cleaner tower• Suspend the mode cleaner
mirror and install its local controls
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LIGO-G040226-00-Z
The detection system
• Upgrade of the photodiodes electronics for the new modulation frequency (6.25 MHz)
• Upgrade of the optical system for the VIRGO beam size • Add of Faraday isolator after the output mode cleaner• Add the readout of the bad polarisation
The suspended detection bench
Output mode cleaner filtering the dark fringe
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LIGO-G040226-00-Z
The optical calibratorCalibration needed to transform photodiode signal into real mirror displacement
Mirror displaced by radiation pressure (1.2W laser diode)
Need to have a good sensitivity before this system can be used
=> use mirror coils now (like for CITF)
Displacement induced by 1,2W laser
CITF
Virgo
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LIGO-G040226-00-Z
Phases of the commissioning
• Aug-Oct 03: alignment of the injection beam, the Beam Splitter, the FP cavities, and the detection bench
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LIGO-G040226-00-Z
Phases of the commissioning
• Aug-Oct 03: alignment of the injection beam, the Beam Splitter, the FP cavities, and the detection bench
• Since Oct 03: North FP cavity commissioning
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LIGO-G040226-00-Z
Phases of the commissioning
• Aug-Oct 03: alignment of the injection beam, the Beam Splitter, the FP cavities, and the detection bench
• Since Oct 03: North FP cavity commissioning• Dec03: start West FP cavity commissioning
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LIGO-G040226-00-Z
Phases of the commissioning
• Aug-Oct 03: alignment of the injection beam, the Beam Splitter, the FP cavities, and the detection bench
• Since Oct 03: North FP cavity commissioning• Dec03: start West FP cavity commissioning• March 04: start Recombined Michelson
commissioning
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LIGO-G040226-00-Z
North FP cavity locking• Alignment of the cavity• Confront photodiode signals with simulation (SIESTA)
simulation reality
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LIGO-G040226-00-Z
Lock of the FP cavity
• Use the linearized error signal: AC/DC
DC Power stored in the cavity Error signal
Time to act is increased by a factor 10 with the linearised signal Force on mirror reduced
DC AC/DC
AC
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LIGO-G040226-00-Z
• Oct 28th: first lock of the North FP cavity
Power fluctuations due to: - laser frequency noise (high freq) - angular motion of the mirrors (low freq)
Reduce laser frequency noise Implement automatic alignment of the mirrors
The lock of the FP cavities is almost always acquired at first attempt thanks to the low speed of the mirrors: ~2 m/sec
Lock of the FP cavity
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LIGO-G040226-00-Z
Lock of the Output mode cleaner
• Once the cavity is locked: – Lock the output mode cleaner– Control the cavity with theOMC output signal
-> improves the sensitivity at high frequencies
AC power spectrum
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LIGO-G040226-00-Z
First commissioning run: C1
3 days (november 14-17):• North FP cavity locked with linearised signal• Output mode cleaner locked
large seismicnoise ( sea storm)
network failure operation
test
re-alignment
Power stored in the cavity(a.u)
Suspension point displacement (m)
Alaskaearthquake
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LIGO-G040226-00-Z
Calibration
Reconstruction of the sensitivity from the photodiode signal:
-> Measurement of the closed loop transfert function with white noise (injected from mirror coils)
G [m]
O
calib z correction
H
Closed loop TF
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LIGO-G040226-00-Z
C1 sensitivity
Electronic noise (ADC)
Frequency noise
Angular noise
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LIGO-G040226-00-Z
- in normal conditions the lock of the cavity is very stable
- injection system stable: only 1 loss of lock (due to the earthquake)
- sensitive to large seismic noise -> the inertial damping has been improved
- many realignments needed -> the automatic alignment is being implemented
- the sensitivity is limited by laser frequency noise -> improve injection control -> implement the second stage frequency
stabilization
- an acoustic test in the laser lab showed that a lot of the frequency noise is induced by acoustic noise -> improve the isolation
C1 run outcomes
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LIGO-G040226-00-Z
Sensitivity to large seismic noise
• The top stage Inertial Damping uses LVDTs (low frequency) and accelerometers
• Seismic noise is reintroduced by LVDTs -> new filter has been designed to reduce this effect (see E. Majorana’s talk)
=> Now implemented on all the towers and works well
Seismometers
Top stage displacement
C1 run 15 Jan
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LIGO-G040226-00-Z
Injection system control
• Input bench and mode cleaner damped with respect to the ground
• Laser frequency locked to mode cleaner length
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LIGO-G040226-00-Z
Injection system control
• Input bench and mode cleaner damped with respect to the ground
• Laser frequency locked to mode cleaner length
• Mode cleaner length locked to reference cavity
• Mode cleaner mirror automatically aligned to input beam
Noise
Noise
Environmental noise introduced through the automatic alignment
Readout noise introduced throughMC length control
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LIGO-G040226-00-Z
Improvement of the controls of the injection
• Automatic alignment control gains reduced
-> less sensitive to environmental noise
• MC control length bandwidth reduced-> less noise injected at high frequency
C1
now
ITF signal (a.u.)
Frequency noise hypothesis
MC length control noise hypothesis
Environmental noise
C1 sensitivity
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LIGO-G040226-00-Z
Next steps
• The linear automatic alignment is implemented and under test: Angular control of the cavity mirrors using signals of quadrant
photodiodes -> reduce the power fluctuations at low frequency
• Implement the laser frequency stabilization
• Study the mirrors hierachical control: lock from the marionetta in order to reduce the force on the mirror ( and therefore the noise)
• And start the commissioning of the recombined Michelson
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LIGO-G040226-00-Z
Conclusion
• Summer 2003: End of the Virgo sub-systems upgrade
• Since autumn 2003: Commissioning of Virgo - Commissioning of the two Fabry-Perot cavities
- First run with one cavity
• Now: – Implementing the laser frequency stabilisation– Prepare the commissioning of the recombined Michelson– Next run: end of this week (feb 19-22) with the 2 FP cavities
• Futur:– Recombined Michelson: spring 2004– Recycled Michelson: end 2004– first scientific run: 2005 ?
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LIGO-G040226-00-Z
Monday morning earthquake
• Earthquake happened in the Rat Island (Alaska) Nov/17 at 06:43:07 UTC: magnitude 7.3 Richter• Travel time to Virgo is approx. 1hour• Peak frequency of the seismic wave at Virgo is approx. 0.70mHz
• Earthquake trigger the inertial damping security system of the injection bench suspension loop was open and input mode-cleaner unlocked
Top stage displacement
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LIGO-G040226-00-Z
• Second stage of laser frequency stabilisation
laser
IMC
DSP
D1p
Analog elec.
electronics
Ref CavDSP
GC