CHARA Collaboration Year-Five Science Review Cophasing activities at Onera Kamel Houairi Frédéric...
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CHARA Collaboration Year-Five Science Review
Cophasing activities at Onera
Kamel Houairi
Frédéric Cassaing
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CHARA Collaboration Year-Five Science Review
Cophasing at Onera
I/ Pupil-plane fringe sensing– Persee– Gravity
II/ Focal-plane fringe sensing– Phase retrieval/diversity– New algorithms under study (F. Cassaing)
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CHARA Collaboration Year-Five Science Review
PERSEE• Context
– Nulling demonstrator for formation-flying missions (Darwin/TPF-I, Pegase, FKSI, …)
• Main objectives– 10-4±10-5 achromatic nulling
• In the [1.6-3.2] µm spectral band• In presence of realistic disturbances• For several hours
– Validate the full operation (star/fringe acquisition, tracking, calibration, unloading of fine correctors)
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CHARA Collaboration Year-Five Science Review
Consortium and sub-systems
Nulling detector
Beam combinerStar Sensor
Source
ONERA
OCA
TAS
IAS
LESIA
CNES
GEPI
Fringe Sensor
Correction
Perturbation
Laboratory
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CHARA Collaboration Year-Five Science Review
Beam combination
M1
M2
P1
P2
P3
P4
A
D
C
B
• Wide-band null Modified Mach-Zehnder
• 4 outputs (ABCD)– Spectral separation after combination
– Common fringe sensor / science instrument
Nulling [1.6-3.2] µm
Fringe tracking [0.8-1.5] µm
Achromaticshift
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CHARA Collaboration Year-Five Science Review
Fringe sensor setup• Spatial modulation
– Allow high measurement frequency (fringe acquision)– D measured by fringe sensor
Real Time null depth monitoring
• Central fringe identification– Dispersion is the simplest way
– Minimize detector noise 2 spectral channels are enough
Simultaneous ABCD in I & J 2 phases, 2 visibilities
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CHARA Collaboration Year-Five Science Review
Operating modes and free parameter optimization
Dispersion: I = [0.8-s]µm -- J = [s-1.5]µm Optimal s ?
Mode Measurement Estimator Parameters
Detection Visibility s, q
Acquisition Goup delay s
Tracking Phase delay s, p
Estimator noises depend on s
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CHARA Collaboration Year-Five Science Review
Separation wavelength optimizationWide spectral band Measurement noise = f()
Estimated OPD measurement noise vs s (photon noise)
Group delay
s = 1 µm, p=0.5, not sensitive
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=0 nm
=100 nm
=20 nm
Phase delay
s = 1 µm, sensitive
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CHARA Collaboration Year-Five Science Review
Final cophasing (piston/tip/tilt) design
Correction
- RT computer- 8 monopixel detectors
Spectral dispersion
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CHARA Collaboration Year-Five Science Review
Cophasing design at Onera(autocollimation)
Correction+
Perturbation
- RT computer- 8 monopixel detectors
Injection bloc:spectral dispersion
One output is used for the light injection
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CHARA Collaboration Year-Five Science Review
Preliminary cophasing implementation at Onera
Backwards light injection Detection Alignment
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CHARA Collaboration Year-Five Science Review
Calibration • Analytical equations of the spatial interferometer
– Linear system OPD = f-1(measurement)
• Need a calibration process
Phase shift ≈ /2 DarkIntensity
arm 1Intensity
arm 2
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CHARA Collaboration Year-Five Science Review
New extended coherencing algorithm (experimental results)
• Estimated OPD is -periodic twolambda analysis to extend the unambiguous range• Classical algorithms are periodic• Estimation of the synthetic wavelength fringe order by a new (real time) agorithm
Extension of the OPD estimation range by a factor of 5To do: Extension for N>2 spectral channels (PRIMA DATA)
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CHARA Collaboration Year-Five Science Review
Results of the fringe tracking• Only laboratory disturbances, sampling = 150Hz
nanometric residual reached– Open loop: opd = 4.5 nm rms
– Closed loop: opd = 1.3 nm rms
Open loopClosed loop
OPD PSDOpen loop Closed loop
Open loop Closed loop
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CHARA Collaboration Year-Five Science Review
Gravity• 2nd generation VLTI instrument
• Instrument design:– 4 UTs– AO correction – Fringe tracking
Fringe tracking residual OPD < /10
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CHARA Collaboration Year-Five Science Review
GRAVITY: 4 beam combination• 4 telescopes to combine
– 3 independent OPDs to control
– Hyp.: pairwise based combination 6 baselines
• Several possibilities to combine the beams
What is the best combination ? How to choose ?Systematic procedure derived, based on noise propagation minimization
One OPD measurement 1/3:1 Splitting ratio
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CHARA Collaboration Year-Five Science Review
Gravity FS simulation
/10
• Selected Fringe Sensor:– S6
• Control law: – Integrator model based
• Atmospheric OPD spectrum– R0=0.95m @ 2.2µm– t0=47ms @ 2.2µm– Total variance: 23 µm rms
• Dispersion: 5 spectral channels (coherencing + science measurements with fringe sensor)
Specification (/10) reached with loop frequency fs = 400 Hz
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CHARA Collaboration Year-Five Science Review
Onera’s Perspectives for pupil-plane FS
• Persée :– Complete Persee installation and qualification– Operate cophasing and nulling systems in parallel– New PhD student for advanced control techniques
• Gravity– Refined simulation underway (Phase B)– New PhD student fall 2009 (Lesia-Onera)