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Narrowband microwave-photonic notch filters using Brillouin-based signal transduction in silicon

Shai Gertler, Nils T. Otterstrom, Michael Gehl, Andrew Starbuck, Christina Dallo, Andrew Pomerene, Douglas C. Trotter, Anthony L. Lentine, Peter T. Rakich

2022Nature Communications61 citationsDOIOpen Access PDF

Abstract

The growing demand for bandwidth makes photonic systems a leading candidate for future telecommunication and radar technologies. Integrated photonic systems offer ultra-wideband performance within a small footprint, which can naturally interface with fiber-optic networks for signal transmission. However, it remains challenging to realize narrowband (∼MHz) filters needed for high-performance communications systems using integrated photonics. In this paper, we demonstrate all-silicon microwave-photonic notch filters with 50× higher spectral resolution than previously realized in silicon photonics. This enhanced performance is achieved by utilizing optomechanical interactions to access long-lived phonons, greatly extending available coherence times in silicon. We use a multi-port Brillouin-based optomechanical system to demonstrate ultra-narrowband (2.7 MHz) notch filters with high rejection (57 dB) and frequency tunability over a wide spectral band (6 GHz) within a microwave-photonic link. We accomplish this with an all-silicon waveguide system, using CMOS-compatible fabrication techniques.

Topics & Concepts

PhotonicsNarrowbandSilicon photonicsBandwidth (computing)OptoelectronicsMaterials scienceOptical filterBand-stop filterMicrowaveOpticsElectronic engineeringComputer scienceTelecommunicationsPhysicsEngineeringLow-pass filterPhotonic and Optical DevicesAdvanced Fiber Laser TechnologiesAdvanced Photonic Communication Systems
Narrowband microwave-photonic notch filters using Brillouin-based signal transduction in silicon | Litcius