sql related experiments at the anu conor mow-lowry, g de vine, k mackenzie, b sheard, dr d shaddock,...
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SQL Related Experiments at SQL Related Experiments at the ANUthe ANU
Conor Mow-Lowry, G de Vine, K MacKenzie, B Sheard, Conor Mow-Lowry, G de Vine, K MacKenzie, B Sheard, Dr D Shaddock, Dr B Buchler, Dr M Gray, Dr PK Lam, Dr D Shaddock, Dr B Buchler, Dr M Gray, Dr PK Lam,
Prof. David McClellandProf. David McClelland
Y Chen and Prof. Stan WhitcombY Chen and Prof. Stan Whitcomb
LIGO - G030180-00-DLIGO - G030180-00-D
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Experiments at the ANUExperiments at the ANU
Squeezing enhanced power recycled Squeezing enhanced power recycled MichelsonMichelson(K. McKenzie, D. A. Shaddock, B. C. Buchler, M. B. Gray, P. K. Lam, D. (K. McKenzie, D. A. Shaddock, B. C. Buchler, M. B. Gray, P. K. Lam, D. E. McClelland) E. McClelland)
Speed meter control scheme and frequency Speed meter control scheme and frequency responseresponse(G. De Vine, Y. Chen,(G. De Vine, Y. Chen, M. B. Gray, S. Whitcomb, D. E. McClelland)M. B. Gray, S. Whitcomb, D. E. McClelland)
Classical noise cancellationClassical noise cancellation(C. Mow-Lowry, B. S. Sheard, M. B. Gray, S. Whitcomb, D. E. (C. Mow-Lowry, B. S. Sheard, M. B. Gray, S. Whitcomb, D. E. McClelland)McClelland)
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Squeezing Enhanced MichelsonSqueezing Enhanced Michelson Optical LayoutOptical Layout
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Squeezing Enhanced MichelsonSqueezing Enhanced Michelson Squeezed State MeasurementSqueezed State Measurement
Squeezing atSqueezing at5.5 MHz5.5 MHz
3.5 dB below 3.5 dB below shot noiseshot noise
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Squeezing Enhanced MichelsonSqueezing Enhanced Michelson Sensitivity ResultsSensitivity Results
1.8 dB 2.3 dB
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Squeezing Enhanced MichelsonSqueezing Enhanced Michelson
Summary of ResultsSummary of Results
First experimental demonstration of a First experimental demonstration of a gravitational wave detector configuration gravitational wave detector configuration operating below the shot noise limitoperating below the shot noise limit
The control scheme, configuration, and injection The control scheme, configuration, and injection optics for the squeezed state are compatible optics for the squeezed state are compatible with full scale detectorswith full scale detectors
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Speed MeterSpeed MeterConfiguration DemonstrationConfiguration Demonstration
Measures relative velocity of end test massesMeasures relative velocity of end test masses
Involves the addition of a “sloshing” cavity and a Involves the addition of a “sloshing” cavity and a signal cavity output coupler for signal extractionsignal cavity output coupler for signal extraction
Theory: e.g. Phys. Rev. D Theory: e.g. Phys. Rev. D 6666, 022001 (2002), 022001 (2002)
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Speed MeterSpeed Meter How Does It Work?How Does It Work?
The sloshing cavity sends the GW signal back The sloshing cavity sends the GW signal back into the interferometer with a pi phase shiftinto the interferometer with a pi phase shift
This then cancels the position signal (the This then cancels the position signal (the interferometers response is like a differentiator interferometers response is like a differentiator up to the sloshing frequency)up to the sloshing frequency)
Thus the interferometer measures the relative Thus the interferometer measures the relative velocity of the test massesvelocity of the test masses
Sloshing frequency determined by the storage Sloshing frequency determined by the storage time of the signal and sloshing cavitiestime of the signal and sloshing cavities
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Speed MeterSpeed Meter Optical LayoutOptical Layout
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Speed MeterSpeed Meter Frequency ResponseFrequency Response
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Speed MeterSpeed Meter Control and ReadoutControl and Readout
An RF control scheme was devised using two An RF control scheme was devised using two resonant phase modulatorsresonant phase modulators
Standard Schnupp and PDH techniques were Standard Schnupp and PDH techniques were usedused
The frequency response was measured by The frequency response was measured by injecting a ‘signal laser’ into the back mirror of an injecting a ‘signal laser’ into the back mirror of an arm cavityarm cavity
The frequency response was in agreement with The frequency response was in agreement with theoretical predictionstheoretical predictions
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Noise CancellationNoise Cancellation
The Standard Quantum LimitThe Standard Quantum Limit
The Quantum noise of The Quantum noise of a coherent state, a coherent state, represented as a ‘ball represented as a ‘ball and stick’and stick’
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Noise CancellationNoise Cancellation
The Standard Quantum LimitThe Standard Quantum Limit
Quantum phase fluctuations directly couple into Quantum phase fluctuations directly couple into GW measurements, and the limiting sensitivity is GW measurements, and the limiting sensitivity is labeled – labeled – Shot NoiseShot Noise
Quantum amplitude fluctuations cause mirrors to Quantum amplitude fluctuations cause mirrors to move, via radiation pressure, resulting in – move, via radiation pressure, resulting in – Radiation Pressure NoiseRadiation Pressure Noise
These two noise sources scale oppositely with These two noise sources scale oppositely with power, producing a minimum at an ideal powerpower, producing a minimum at an ideal power
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Noise CancellationNoise Cancellation
The Standard Quantum LimitThe Standard Quantum Limit
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Noise CancellationNoise Cancellation
The Standard Quantum LimitThe Standard Quantum Limit
Both Shot Noise and Radiation Pressure Noise Both Shot Noise and Radiation Pressure Noise limit sensitivity at the SQLlimit sensitivity at the SQL
How can we do better?How can we do better? Squeezing?Squeezing?
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Noise CancellationNoise Cancellation
The PrincipleThe Principle
At the SQL shot noise and radiation pressure At the SQL shot noise and radiation pressure noise are the same sizenoise are the same size
If they are correlated with the appropriate If they are correlated with the appropriate phase, they will cancelphase, they will cancel
Squeezing can be used to correlate the Squeezing can be used to correlate the fluctuationsfluctuations
Thus squeezing can be used to breach the Thus squeezing can be used to breach the SQLSQL
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Noise CancellationNoise Cancellation The Standard Quantum LimitThe Standard Quantum Limit
Squeezing at 45 Squeezing at 45 degrees correlates degrees correlates fluctuations in the two fluctuations in the two quadraturesquadratures
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Noise CancellationNoise Cancellation
The Classical EquivalentThe Classical Equivalent
We performed a bench top experiment which is We performed a bench top experiment which is the classical analogue to breaching the Standard the classical analogue to breaching the Standard Quantum LimitQuantum Limit
We used Amplitude modulation to replace radiation We used Amplitude modulation to replace radiation pressure noise, andpressure noise, and
Frequency modulation to replace shot noiseFrequency modulation to replace shot noise
These artificially imposed noise sources can These artificially imposed noise sources can mimic quantum noisemimic quantum noise
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Noise CancellationNoise Cancellation
The Classical EquivalentThe Classical Equivalent
Performing this experiment in the classical Performing this experiment in the classical regime greatly eases noise requirements, regime greatly eases noise requirements, facilitating bench top workfacilitating bench top work
It provides proof of principle resultsIt provides proof of principle results
Most importantly, it generates experience Most importantly, it generates experience working with interferometers which are working with interferometers which are dominated by radiation pressuredominated by radiation pressure
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Noise CancellationNoise Cancellation
Experimental DesignExperimental Design
There were several important features in the There were several important features in the design:design:
Creating a bench top environment sufficiently quietCreating a bench top environment sufficiently quiet
The design of the lightweight mirrorThe design of the lightweight mirror
The optical layout, andThe optical layout, and
Control and readout of the mirror positionControl and readout of the mirror position
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Noise CancellationNoise Cancellation Experimental DesignExperimental Design
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Noise CancellationNoise Cancellation
Experimental DesignExperimental Design The experiment uncoveredThe experiment uncovered
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Noise CancellationNoise Cancellation Experimental DesignExperimental Design
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Noise CancellationNoise Cancellation
Experimental DesignExperimental Design
Some real numbers:Some real numbers:
Standard input power Standard input power ~ 200 mW~ 200 mW
Circulating power Circulating power ~ 40 W~ 40 W
Angular spring constant Angular spring constant ~ 0.5 Nm/rad~ 0.5 Nm/rad
Maximum optical force Maximum optical force ~ ~ 4 x 104 x 10-7-7 N N
Maximum optical torque Maximum optical torque ~ 5 x 10~ 5 x 10-9-9 Nm Nm
Predicted displacement Predicted displacement ~ ~ 1010-11-11 m m
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Noise CancellationNoise Cancellation ResultsResults
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Noise CancellationNoise Cancellation ResultsResults
Verification that error signal disturbances from Verification that error signal disturbances from input AM were caused by radiation pressure was input AM were caused by radiation pressure was done in 3 ways:done in 3 ways:
Measurement of the transfer function from amplitude Measurement of the transfer function from amplitude modulation to error signal disturbance, modulation to error signal disturbance,
Observation of the scaling of the error signal Observation of the scaling of the error signal disturbance with input power, anddisturbance with input power, and
A calibrated measurement of motion for a known A calibrated measurement of motion for a known driving radiation pressure forcedriving radiation pressure force
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Noise CancellationNoise Cancellation ResultsResults
101
102
103
104
-50
-40
-30
-20
-10
0Transfer Function from AM to Error Signal
Frequency (Hz)
101
102
103
104
-600
-400
-200
0
Frequency (Hz)
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Noise CancellationNoise Cancellation ResultsResults
0 100 200 300 400 500 600 700 800
-60
-50
-40
-30
-20
Scaling of AM effects with input power
Frequency (Hz)
0 100 200 300 400 500 600 700 800-200
-150
-100
-50
0
Frequency (Hz)
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Noise CancellationNoise Cancellation ResultsResults
102
103
10-12
10-11
10-10
Frequency (Hz)Frequency (Hz)
Mirr
or m
otio
n (m
)M
irror
mot
ion
(m)
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Noise CancellationNoise Cancellation ResultsResults
The first cancellation data was recorded at a The first cancellation data was recorded at a single frequency by:single frequency by:
Introducing a sinusoidal AM signalIntroducing a sinusoidal AM signal
Adding an FM signal at a different frequency, and Adding an FM signal at a different frequency, and matching their error signal amplitudesmatching their error signal amplitudes
Phase locking the signals at the same frequencyPhase locking the signals at the same frequency
Adjusting their relative phases and amplitudes until Adjusting their relative phases and amplitudes until the peak reached a minimumthe peak reached a minimum
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Noise CancellationNoise Cancellation ResultsResults
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Noise CancellationNoise Cancellation ResultsResults
To achieve broadband noise cancellation, To achieve broadband noise cancellation, bandwidth limited white noise was generatedbandwidth limited white noise was generated
The signal was split, to supply inputs to both The signal was split, to supply inputs to both the amplitude and frequency modulatorsthe amplitude and frequency modulators
To counter the effect of the mechanical To counter the effect of the mechanical transfer function, one path was shifted in transfer function, one path was shifted in amplitude and phase, then invertedamplitude and phase, then inverted
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Noise CancellationNoise Cancellation ResultsResults
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Noise CancellationNoise Cancellation ResultsResults
150 160 170 180 190 200-120
-110
-100
-90
-80
-70
-60
Broadband noise cancellation (05/03/03)
Frequency (Hz)
Err
or
sign
al,
10 a
vera
ges
(dB
Vpk
)
-50
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Noise CancellationNoise Cancellation Further WorkFurther Work
Several additions were made to the work Several additions were made to the work shown here:shown here:
An unmodulated, orthogonally polarized probe An unmodulated, orthogonally polarized probe was used to readout cavity lengthwas used to readout cavity length
Better optical power and cavity finesse Better optical power and cavity finesse measurements were mademeasurements were made
Measurements were made of frequency shifts Measurements were made of frequency shifts from opto-mechanical couplingfrom opto-mechanical coupling
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Noise CancellationNoise Cancellation Further Work - ResultsFurther Work - Results
250 300 350-100
-90
-80
-70
-60
-50
-40Frequency Shifting - 200 mW input
Frequency (Hz)
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ConclusionsConclusions
A squeezing enhanced Michelson A squeezing enhanced Michelson interferometer was shown to operate with interferometer was shown to operate with sensitivity better than the shot noise limitsensitivity better than the shot noise limit
A speed meter control scheme and frequency A speed meter control scheme and frequency response was demonstratedresponse was demonstrated
Correlated noise in the same quadratures as Correlated noise in the same quadratures as shot noise and radiation pressure noise was shot noise and radiation pressure noise was shown to cancel in the presence of a movable shown to cancel in the presence of a movable mirrormirror