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Paper detail

Digital laser frequency control and phase stabilization loops for a high precision space-borne metrology system

We report on the design, implementation and characterization of fully digital control loops for laser frequency stabilization, differential phase-locking and performance optimization of the optical metrology system on-board the LISA Pathfinder space mission. The optical metrology system consists of a laser with modulator, four Mach-Zehnder interferometers, a phase-meter and a digital processing unit for data analysis. The digital loop design has the advantage of easy and flexible controller implementation and loop calibration, automated and flexible locking and resetting, and improved performance over analogue circuitry. Using the practical ability of our system to modulate the laser frequency allows us to accurately determine the open loop transfer function and other system properties. Various noise sources and their impact on system performance are investigated in detail.

preprint2012arXivOpen access
Gerald HechenblaiknerVinzenz WandMichael KerstenKarsten DanzmannAntonio GarciaGerhard HeinzelMiquel NofrariasFrank Steier
physics.ins-detphysics.optics
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Gerald HechenblaiknerVinzenz WandMichael KerstenKarsten DanzmannAntonio GarciaGerhard HeinzelMiquel NofrariasFrank Steier

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