Navisp-El1-076 Low Swap Optical Clock Control Unit Solutions For Future Optically-Augmented Pnt Applications Include The Use Of High Trl Optical Reference Cavities Capable Of Operating Either In Space Or In Terrestrial Mobile Environments. These Robust Low-Swap Optical Oscillators And Clocks Offer Significantly Higher Accuracy When Compared With Microwave Systems And Aim To Provide A High-Accuracy, Resilient Holdover Technique In The Event Of Gnss Signal Denial. Compared To Other Approaches (E.G. Horizon) Where One Single Laser Wavelength, Or None, Is Foreseen, This Optical Clock Control Unit Is Based On The Requirement For The Control Of Multiple Laser Sources, Including Wavelength Knowledge, Wavelength Drift Control And Duty Cycle. For An Optical Frequency Standard/Clock Based On Strontium There Are 6 Wavelengths; Multiple Wavelengths Increase The Complexity Of The System, But Also Vastly Enhance The Performance. The Objective Of This Activity Is To Develop A Ule Glass Dual-Axis Cavity Clock Control Unit To Trl 6/7, Ensuring That The Fully Integrated Unit Has Appropriate Size, Weight And Power Consumption For Terrestrial Mobile Applications. The Unit Should Also Be Developed To Have Robustness To Vibration, Shock And Radiation Conditions Consistent With Launch And Relevant Orbit Conditions For Use In Space Applications. The Unit Will Provide Complete Frequency Stabilisation Control Of The Optical Clock Laser (Clock Transition) And Auxiliary Lasers Needed For An Optical Clock Via Dual Axes Of The Cube. Read Less
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