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Ultra-low phase noise microwave generation with a free-running monolithic femtosecond laser

Manoj Kalubovilage, Mamoru Endo, T. R. Schibli

2020Optics Express38 citationsDOIOpen Access PDF

Abstract

Phase noise performance of photonic microwave systems, such as optical frequency division (OFD), can surpass state-of-the-art electronic oscillators by several orders of magnitude. However, high-finesse cavities and active stabilization requirements in OFD systems make them complicated and potentially unfit for field deployment. Ultra-low noise mode-locked monolithic lasers offer a viable alternative for a compact and simple photonic microwave system. Here we present a free-running monolithic laser-based 8 GHz microwave generation with ultra-low phase noise performance comparable to laboratory OFD systems. The measured noise performance reached −130 dBc/Hz at 100 Hz, – 150 dBc/Hz at 1 kHz, and –167 dBc/Hz at 10 kHz offsets from the 8-GHz carrier. We also report a sub-Poissonian noise floor of −179 dBc/Hz above 30 kHz (timing noise floor of 32 zs Hz −1/2 ), which is ∼12 dB below the noise floor of time-invariant shot noise. In addition to the low phase noise, the system is compact, with a power consumption of less than 9 W, and offers excellent potential for mobile or space-borne applications.

Topics & Concepts

Phase noisedBcNoise floorOpticsRelative intensity noiseMicrowaveMaterials scienceNoise (video)OptoelectronicsLaserPhotonicsFemtosecondNoise generatorPhysicsNoise reductionNoise measurementNoise figureSemiconductor laser theoryAcousticsComputer scienceAmplifierArtificial intelligenceCMOSImage (mathematics)Quantum mechanicsAdvanced Fiber Laser TechnologiesAdvanced Photonic Communication SystemsPhotonic and Optical Devices
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