developing two-way free-space optical communication links...
TRANSCRIPT
![Page 1: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/1.jpg)
Developing two-way free-space optical communication links to connect atomic clocks on the
ground with atomic clocks in orbit. Nov 7th 2018
Michael TaylorSupervisor: Prof. Leo Hollberg
Fundamental Physics
![Page 2: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/2.jpg)
Optical Time and Frequency Transfer to SpaceGoal: 1ps time transfer from orbit to anywhere on earth
1mm range determination to orbit
Image credit ESA: European_Data_Relay_System_EDRS.jpg
M Taylor SCPNT 20182
![Page 3: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/3.jpg)
Better Time Transfer to Orbit
• Clock based tests of relativity
• Measure stability of atomic clocks in orbit
• ACES/PHARO cold atom clocks to ISS soon!
• Precision orbit determination
• Geodesy• mm level sea level rise
• plate motion, mapping earths gravity (GRACE-FO)
• High stability reference for other satellites• Enhance capabilities of GNSS, satellite formations,
commercial small satellite systems, deep space ranging
• Joint Comparison of optical atomic clocks across the world
M Taylor SCPNT 20183
![Page 4: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/4.jpg)
Optical Link vs GNSS
• Optical Signal:
• 1Gbaud symbol rate, coherent detection on 193.5THz carrier possible
• CNR ~110dB-Hz
• Better than 1pS timing in clock recovery
• Disrupted by atmosphere
• Much stricter pointing requirement
USAF GPS block IIIA, retrieved from https://en.wikipedia.org/wiki/GPS_Block_IIIA#/media/File:GPS_Block_IIIA.jpg
TESAT laser communications terminal. https://www.tesat.de/en/media-center/blog/information/83-news/616-advanced-capability-evolution-for-optical-laser-communication
• GNSS Observations:• 1Mchip/s symbol rate, + 1.5GHz carrier• CNR ~50dB-Hz• ~1nS timing uncertainty for long
enough average• ~30cm range• Disrupted by ionosphere
M Taylor SCPNT 20184
![Page 5: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/5.jpg)
Comparing Atomics Clocks Around the World• Satellite in MEO orbit (~10,000km) provides common view between standards labs
M Taylor SCPNT 20185
Berceau, Paul, et al. "Space-time reference with an optical link." Classical and
Quantum Gravity 33.13 (2016): 135007.
![Page 6: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/6.jpg)
Two-Way Satellite Optical Time Frequency Transfer using Optical Communications Links
1tooth
x2
self-reference
Laser-commTerminal
MEOsatellitereferencecavity
atomicfreq.reference
GNSSsatellites
CWlaser
f0
frep(
- -
+
-
+
+
-
DPSK
C1K
M Taylor SCPNT 20186
![Page 7: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/7.jpg)
Two Way Satellite Time Transfer: Ground to Space
• Two way measurement between ground and space clocks:
2 𝜙𝐺 𝑡 − 𝜙𝑆 𝑡 + 𝜙𝐺→𝑆 𝑡 − 𝜙𝑆→𝐺 𝑡 +𝑛𝑆 𝑡
𝐴𝐺 𝑡+𝑛𝐺 𝑡
𝐴𝑆(𝑡)
• Comparison depends on:
• Δ𝜙𝐺𝑆 ground/space clock phase difference
• Δ𝜙𝑆↔𝐺 residual two way path non-reciprocity
• Noise 𝑛 𝑡 scaled by incoming signal intensity 𝐴 𝑡
• A signal fade in either direction will cause an increase in uncertainty on the two way measurement
M Taylor SCPNT 20187
![Page 8: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/8.jpg)
Partial Reciprocity in Ground to Space Links
Belmonte, Aniceto, et al. "Effect of atmospheric anisoplanatism on earth-to-satellite time transfer over laser communication links." Optics express 25.14 (2017): 15676-15686.
M Taylor SCPNT 20188
![Page 9: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/9.jpg)
Partial Reciprocity Earth-MEO Satellite
• Turbulence causes small optical path length variations that lead to timing uncertainty during long averaging periods
One way variation through turbulence
Detector Noise Limit
Two-way incomplete path cancellation
M Taylor SCPNT 20189
![Page 10: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/10.jpg)
What 1km of Turbulence Looks Like
M Taylor SCPNT 201810
![Page 11: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/11.jpg)
Simulating Optical Propagation Through Turbulent Atmosphere
• Phase screens represent cumulative perturbations from propagation
Vacuum prop
Vacuum prop
Wind
M Taylor SCPNT 201811
![Page 12: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/12.jpg)
Infinite Kolmogorov Phase Screen Example• Wind blowing evolving turbulence across propagation path
M Taylor SCPNT 201812
![Page 13: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/13.jpg)
Downlink Beam Scintillation• Downlink beam coherence is broken up through turbulence, many light and
dark spots running over aperture produce signal fades
M Taylor SCPNT 201813
![Page 14: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/14.jpg)
Uplink Beam Wander• Refraction through turbulence causes beam steering, potentially large and
long fades at satellite
M Taylor SCPNT 201814
![Page 15: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/15.jpg)
Simulating Two-Way Satellite Time Transfer
• Time series of simulated intensity and phase measurements on ground and at satellite
• Identify performance penalty due to partial reciprocity
𝜙𝐺𝑛𝑑(𝑡)
𝜙𝑆𝑎𝑡(𝑡)
Fading on either end drops two-way comparison
M Taylor SCPNT 201815
![Page 16: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/16.jpg)
Conclusions
• Satellite optical communications links can be used for precision time transfer and ranging• 1ps timing achievable with current space hardware
• Partial reciprocity of the atmosphere limits achievable time-transfer performance • Limit closer to fs level, noticeable on coherent detection systems
• Satellite optical uplinks are an important research topic for communications and time-transfer• Limited ability to correct uplink from downlink
• Beam wander a significant challenge
M Taylor SCPNT 201816
![Page 17: Developing two-way free-space optical communication links ...web.stanford.edu/.../PNT18/...Clocks_Optical_Links.pdf · Developing two-way free-space optical communication links to](https://reader034.vdocuments.mx/reader034/viewer/2022051814/60378d828dc673125a7fa9b7/html5/thumbnails/17.jpg)
Thank You!Q u e s t i o n s ?