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56 3.18. Versatile frequency synthesis and signal distribution devic 58 3.19. Newport XPS motion controller piloting different motorized stages 59 3.20 Synopsis of the pulse picker control scheme 60 3.21. Overview of the main parts of the optical part of the test bed 61 3.22. The optical part of the test bed implemented at 62 3.23. View on the class 100 tent in the Pronaos class 100 63 3.24. The modified architecture of the test bed for Jason 64 3.25 Jason 2 during integration at THALES Alenia Space 67 3.28. Measurement scheme to compare different clocks via their phase evolution . . 68 3.29. The different clocks used in the test bed compared to another 70 3.33. Precision of the non-linear return detector as a function of photon number . . 70 3.34. Time stability of two acquisitions on the reference non-linear return detector . 71 3.35. Determination of the frequency synthesis' performance, 15. White LED grid for wide field sun noise simulation Test setup for the determination of the start detection stability . . . . . . . . 69 3.31. Time stability of start detection 75 3.38. Experiment setup for synchronous and asynchronous timing . . . . . . . . . . 76 3.39. Stability of event timing in synchronous and asynchronous mode . . . . . . . 76 3.40. Temporal precision of the four internal calibration pulses Test setup for stability measurement . . . . . . . . . . . . . . . . . . . . . . . 80 3.44. Filtering of raw dates in single-photon mode, p.82 ,
Evolution of the apparent incident energy on, p.96 ,
Artist's impression of, p.165 ,
187 8.7. Experiment setup in laser cavity clock mode 189 8.8. Time stability of synchronous timing in laser cavity clock mode, 189 8.9. Time stability of differential acquisition in cavity clock mode . . . . . . . . . 190 8.10. Measurement setup for optical timing with electronic division . . . . . . . . . 191 8.11. Time stability plot of the differential measurement ,
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