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Integrated microwave acousto-optic frequency shifter on thin-film lithium niobate

Linbo Shao, Neil Sinclair, James Leatham, Yaowen Hu, Mengjie Yu, Terry Turpin, Devon Crowe, Marko Lončar

2020Optics Express93 citationsDOIOpen Access PDF

Abstract

Electrically driven acousto-optic devices that provide beam deflection and optical frequency shifting have broad applications from pulse synthesis to heterodyne detection. Commercially available acousto-optic modulators are based on bulk materials and consume Watts of radio frequency power. Here, we demonstrate an integrated 3-GHz acousto-optic frequency shifter on thin-film lithium niobate, featuring a carrier suppression over 30 dB. Further, we demonstrate a gigahertz-spaced optical frequency comb featuring more than 200 lines over a 0.6-THz optical bandwidth by recirculating the light in an active frequency shifting loop. Our integrated acousto-optic platform leads to the development of on-chip optical routing, isolation, and microwave signal processing.

Topics & Concepts

Materials scienceOpticsLithium niobateMicrowaveOptoelectronicsBroadbandPhase shift moduleBandwidth (computing)Radio frequencyFrequency modulationFrequency responseOptical communicationOptical fiberFrequency combOptical Carrier transmission ratesHeterodyne (poetry)Frequency multiplierPhase modulationIntegrated opticsBeam steeringOptical amplifierLight beamSignal processingPulse compressionHeterodyne detectionLaserSemiconductor laser theoryOptical modulatorPhase noiseBeam (structure)Optical switchLaser beamsOptical modulation amplitudeIntermediate frequencyOptical circulatorOptical transistorOptical filterInsertion lossSIGNAL (programming language)True time delayPhotorefractive and Nonlinear OpticsOptical and Acousto-Optic TechnologiesAdvanced Fiber Laser Technologies
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