rf readout scheme to overcome the sql feb. 16 th, 2004 aspen meeting kentaro somiya...
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RF readout scheme to overcome the SQL
Feb. 16th , 2004Aspen Meeting
Kentaro SomiyaLIGO-G040228-00-Z
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Readout scheme
DC or RF
Commonly used in QND study Commonly used in GW detectors
Many readout phase can be used (shown later)
Only one readout phase
No additional quantum noise Additional quantum noise from RF region
This noise can be hopefully removed by RF input squeezing,and the sensitivity can be better than that with DC readout !
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Contents
•Short review of quantum noise
•Input squeezing and homodyne detection
•RF readout scheme (unbalanced sideband detection)
•RF input squeezing
•Multi-phase detection
•Summary and Discussion
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Review of quantum noise
Particlesphoton number
Radiation pressure noise
<Property>
<Fluctuation>
Waveslight phase
Shot noise
Both noise sources behave as sidebands to the classical light with or without phase shift.
time
amp.
time
amp.
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Vacuum fluctuation as SB
Fourier space: relative phase to the carrier light
Common
Differential 2a
1a
Laser light Classical light Vacuum fluctuation
Where does vacuum come from?
2
1 n
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Vacuum fluctuation from DP
2a
1a
2b
1b
Signal
laser
Input field Output field
1a couples with laser light
Radiation pressure noise
Output field is squeezed (ponderomotive squeeze)
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SQLSQLn hhh
2
12
GWS: h2
Standard Quantum Limit
SQL is defined including this ponderomotive squeezing.
12 Noise
222
40 2/
SQLII
represents the power in the cavity.
( : GW freq. , : cavity pole)
Radiation pressure noise
Shot noise
Total quantum noise level
Conventional readout phase
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(1)Input Squeezing
Changing readout phase
With non-linear optics
How to beat the SQL ? ~ QND techniques
(2)Homodyne Detection
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Nonlinear Optics
Input Squeezing
Reshape the ellipse of ponderomotive squeezing!
1a
2a
1a
2a
2b
1b
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Input Squeezing Experiment in ANU(McKenzie et al, Phys. Rev. Let. Vol.88 2002)
•Successful squeezing by 7dB (R~2) in mega-hertz region
•Need more time for squeezing at ~100Hz
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Homodyne Detection
GWS : readout phase (homodyne phase)
2
1tan 2 SQLn hh
Total quantum noise level
Readout phase is fixed.
Ellipse shape depends on signal freq.
QND at particular frequency.
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Homodyne detection spectrum
No radiation pressure noise in narrow band.
: readout phase
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Conventional way of homodyne detection
•Additional beamsplitter would be troublesome.•Direct coupling of AC noise might be a problem.
No demodulation
DC light
Signal + noise
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DC readout
Several issues should be tested at Caltech 40m.
RF SB
DC (Sig.&Offset)
Output MC
Offset to L-
Determines the phase Sig.
EOM
Planned to be used for AdLIGO.
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Problem of these QND techniques
1) Input Squeezing Only available at low frequencies so far.
2) Homodyne Detection, or DC readout Direct coupling of AC noise.
Isn’t it possible to change the readout phase with conventional RF readout scheme?
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RF modulation-demodulation scheme
carrier
GW signal SB
Lower SidebandUpper Sideband
Phase modulated SB is made of the upper and the lower sidebands.
Readout phase is fixed to zero.
~ 15MHz
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What if there is only a single sideband ?
2
1'tan 2 SQLn hh (’ =demodulation phase)
Readout phase can be chosen by demodulation phase.
Calculated result
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Why demodulation phase ?
GW signal RF frequency
SSB
Optimal demod. wave
With RP noiseWithout RP noise
Demodulation phase determines the phase of this stroboscopic measurement.
Optimal demodulation phase shifts from 0 and the sensitivity is improved.
(K.Somiya, Phys. Rev. D vol.67, 2003)
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A big problem: Vacuum at 2fm
Vacuum around the carrier
Vacuum at 2fm
Vacuum at 2fm is dominant at some readout phase.
(A.Buonanno, Y.Chen, and N.Mavalvala, Phys. Rev. D Vol.67, 2003)
Conventional shot noise
Heterodyne shot noise (causing at demodulation)
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RF Input Squeezing
Input Squeezing is available at mega-hertz.
We can reduce heterodyne shot noise at a particular frequency.
Squeezed vacuum at 2fm
Original vacuum
Squeezing at 2fm
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Quantum noise spectrum with RF Squeezing
While the peak cannot exceed the SQL with heterodyne shot noise, QND is realized with RF Squeezing !!
Squeeze factor R=1.76
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Multi-phase Detection We cannot split the light not to
reduce the signal amount.
But we can split the electric field without signal degeneration.
We can use all of them with different readout phase.
Combine!
2Phase shifter
1
15MHz 50MHz
Demodulation
Modulation
Practically two SBs will be available in a 2nd generation interferometer.
Ex. LCGT
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Noise spectrum with Multi-phase Detection
The SNR for compact binaries is improved with keeping good sensitivity in broadband.
High frequencies: conventional broadband readoutLow frequencies: narrowband with RF squeezing
MultiDC
SQL
SN=10@ 290MpcSN=10@ 350Mpc
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In the case of detuned configuration
Detune (DC)
SQL
MultiDC
SN=10@ 290MpcSN=10@ 350MpcSN=10@ 501Mpc
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Detuned RSE + Multi-phase Detection
Detune (RF Multi)
MultiDC
SN=10@ 290MpcSN=10@ 350MpcSN=10@ 589Mpc
Very broadband detuning !!
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Summary
QND techniques
Input Squeezing
RF Detection
Homodyne Detection
Conventional readout scheme
Only available at very high frequency.
DC is harder to handle.
RF is easier to handle.
Obstacles for QND measurement•U/L sidebands make the readout phase fixed.
•Vacuum at 2fm limits the sensitivity.Unbalanced Sideband Detection
RF Squeeze
Multi-phase detection makes the sensitivity improved and broad.
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Discussion
There are several conditions necessary to realize the RF squeezing:
(1) Asymmetry factor for 2fm vacuum should be a multiple of to reflect all the input vacuum from DP to DP.
(2) Squeezing at 2fm+f and 2fm-f should be correlated (f: GWS freq.), or equivalently squeezed. (pointed out by Y.Chen)
This is satisfied with a control scheme for RSE.
This might be difficult. Need more investigation.
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Discussion
0Freq.
Negative frequency (conjugate) SSB
2fm
Ca