high repetition rate slr at grsm - nasadcr @ 7 v 200 khz quantum efficiency 47% @ 1064 nm...
TRANSCRIPT
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High repetition rate SLR at GRSM
C. Courde1, H. Mariey1, J. Chabé1, D-H. Phung1, J-M. Torre1, M. Aimar1, N. Maurice1,
E. Samain2, A. Tosi3, M. Buttafava3
1 Université Côte d'Azur, CNRS, Observatoire de la Côte d'Azur, IRD, Géoazur, 2130 Route de
l’Observatoire 06460 CAUSSOLS France2 SigmaWorks, 8 Allée Bellevue 06460 SAINT VALLIER DE THIEY, France3 Politecnico di Milano, Dipartimento di Elettronica, Informazione e Bioingegneria, Piazza
Leonardo da Vinci 32, 20133 Milano, Italy
ILRS Technical Workshop
Stuttgart 21th – 25th October 2019
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Why increasing the repetition rate ?
Our motivation: 2 colors measurement at the mm level
2𝐷 = 𝑅𝐺𝑟𝑒𝑒𝑛+ a (𝑅Green – 𝑅IR)
=>
It requires an high improvement of the time-of-flight measurement on the both
wavelength.
D
RGreenRIR
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Why increasing the repetition rate ?
Limitations : - Multi corner cubes
target
- Timing jitter of SPAD
=> 𝜎 𝑠𝑖𝑛𝑔𝑙𝑒−𝑠ℎ𝑜𝑡 = 15 𝑝𝑠
- Atmospherical
dispersion & spectral
width of pulses
=> limit the use of
pulse width between
5 ps - 20 ps
Limitations : - Atmospherical backscattering &
turbulence
[I. Prochazka, 17th ILRS Workshop, 2011]
One solution in single-photon mode:
Try to increase the repetition rate of the
measurements to push the TVAR on the
left
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What is it necessary to implemented ?
▪ Time Stability @ 1000s: < 20 fs
▪ Linearity: 0.3 ps rms.
▪ Thermal Sensit. < 200 fs/°C
▪ Repeatability error
▪ Synchronous : 600 fs rms
▪ Random : 700 fs rms
▪ Rate
▪ Dead time: 130 ns
▪ Continuous rate 35 kHz
We have a
sub-picosecond STX 301 event timer
(puchased now by SigmaWorks) acquired
during the T2L2 mission.
High repetition rate picosecond laser => 100 MHz HighQ laser
High repetition rate event timer
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Collaboration in 2014 with
Si-SPAD
Active area diameter 100 µm
Max repetition rate 1 MHz
Timing jitter 33 ps FWHM
DCR @ 7 V 74 Hz
Quantum efficiency 53% @ 532 nm
What is it necessary to implemented ?
InGaAs-SPAD
Active area diameter 50 µm
Max repetition rate 100 kHz
Timing jitter 76 ps FWHM
DCR @ 7 V 200 kHz
Quantum efficiency 47% @ 1064 nm
Development of two high repetition rate SPAD detections
And with the help of the
High repetition rate SPAD
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Green SPAD @ 1MHz
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Green SPAD @ 1MHz
Skew = 1.8 ; Kurtosis = 5.5
Clearly not a Normal distribution !
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Green SPAD @ 1MHz
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Green SPAD @ 1MHz
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Green SPAD @ 1MHz
150 fs @ 0.6 s
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IR SPAD @ 100 kHz
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IR SPAD @ 100 kHz
Skewness =0.9 ; Kurtosis = 4.2
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IR SPAD @ 100 kHz
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IR SPAD @ 100 kHz
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IR SPAD @ 100 kHz
213 fs @ 2s
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High repetition rate on a ground-
ground link
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Laser ranging on a fixed target at a distance of
2.5 km @ 100 kHz at 1064 nm
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Laser ranging on a fixed corner cube at a
distance of 2.5 km @ 100 kHz at 1064 nm
Modulo 1E7 fs => 10 ns
Residuals from the non complete extinction of
the pulse picker in front of the 100 MHz
repetition rate laser
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Laser ranging on a fixed corner cube at a
distance of 2.5 km @ 100 kHz at 1064 nm
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Laser ranging on a fixed corner cube at a
distance of 2.5 km @ 100 kHz at 1064 nm
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Laser ranging on a fixed corner cube at a
distance of 2.5 km @ 100 kHz at 1064 nm
300s
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Laser ranging on a fixed corner cube at a
distance of 2.5 km @ 100 kHz at 1064 nm
450 ms
Limitation of the event timer:
130 ns deadtime but limitation due to internal time
for the transfer of data and the limited size of the fifo
=> continuous rate 35 kHz max
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Laser ranging on a fixed corner cube at a
distance of 2.5 km @ 100 kHz at 1064 nm
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Laser ranging on a fixed corner cube at a
distance of 2.5 km @ 100 kHz at 1064 nm
Maybe pb with the laser lock-in on the external clock
Atmospherical turbulence ?
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Laser ranging on a fixed corner cube at a
distance of 2.5 km @ 100 kHz at 1064 nm
Average wind > 15 m/s (54 km/h)
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• We characterized two high repetition rate SPAD working:
– at 1 MHz in Green
– at 100 kHz in IR
• We measured a white noise behaviour for our two detection channels
in Lab with:
– 150 fs @ 0.6 s for the green SPAD
– 213 fs @ 2s for the IR SPAD
• We will have to confirm that high repetition rate laser ranging allow to
see the impact of the atmospherical turbulence on the range
measurements
• Lot of works in perspective on all the SLR sub-system !!
• A new laser dedicated for SLR should arrive soon !
Conclusion & Perspectives
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Thanks for your attention
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Motivation
2𝐷 = 𝑅𝐺𝑟𝑒𝑒𝑛 𝑅𝐺𝑟𝑒𝑒𝑛 =𝑡𝑟𝑒𝑡𝑢𝑟𝑛 − 𝑡𝑠𝑡𝑎𝑟𝑡 . 𝑐0𝑛(𝜆, 𝑇, 𝑃𝑣, 𝑃𝑎, 𝐶𝑂2)
Currently:
RGreen
D
with
Unknown parameter
=> uncertainty at the cm level
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Motivation
Our objective: 2 colors measurement at the mm level
2𝐷 = 𝑅𝐺𝑟𝑒𝑒𝑛+ a (𝑅Green – 𝑅IR)
Correction term => Dispersion effect (due to dry atmosphere)
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Improve accuracy in SLR
𝐷 =𝑡𝑎𝑟𝑟𝑖𝑣𝑎𝑙 − 𝑡𝑑𝑒𝑝𝑎𝑟𝑡 . 𝑐
2𝑐 =
𝑐0𝑛(𝜆, 𝑇, 𝑃𝑣, 𝑃𝑎, 𝐶𝑂2)
avec
J. B. Abshire, October 1980 / Vol. 19, No. 20 / APPLIED OPTICS
Idea of 2 colors
(K. B. Earnshaw and E. Norman
Hernandez, 1972 ; Abshire, 1980)
Send simultaneously pulses at 2 different
wavelengths.
Not used routinely by most of the
ILRS stations:
- Technological limits
- Global performances of the same
order of index models
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• ℛ1 = 𝑝1
.𝑛 𝑓1, 𝑟1 𝑑𝑠1
• ℛ2 = 𝑝2.𝑛 𝑓2, 𝑟2 𝑑𝑠2
Improve accuracy in SLR
From D. D. Wijaya et Al.,
Springer Verlag, 2011
• ℛ1 & ℛ2 contains the same quantities of total atmospheric
and water vapor density, the same curvature effects. The
unknown integral 𝑝1.𝜌𝑡 𝑟1 𝑑𝑠1 can be rigorously eliminated
2𝑆 = 𝑅1+ 𝜈 𝑅1 − 𝑅2 + 𝜐𝑃21 − 𝜅1 +𝐻21𝑆𝐼𝑊𝑉
2 colors measurement
P21 represents the propagation corrections from the ray path p2 to p1
κ1 is the arc-to-chord correction for the ray path p1 which accounts for the curvature effect
ν the power of dispersion
H21 the water vapor factor
SIWV the slant integrated water vapor
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Improve accuracy in SLR
En mm En mm En mm
Dispersion effect (term due to dry atmosphere)
Curvature of optical paths
Water vapor density effect
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How to achieve millimetric accuracy in SLR
with 2-colors measurements?
From D. D. Wijaya et
al., Springer Verlag,
2011
Precision to reach at each wavelength
Millimeter accuracy possible with a significant precision improvement