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Widely tunable, heterogeneously integrated quantum-dot O-band lasers on silicon

Aditya Malik, Joel Guo, Minh A. Tran, Géza Kurczveil, Di Liang, John E. Bowers

2020Photonics Research57 citationsDOIOpen Access PDF

Abstract

Heterogeneously integrated lasers in the O-band are a key component in realizing low-power optical interconnects for data centers and high-performance computing. Quantum-dot-based materials have been particularly appealing for light generation due to their ultralow lasing thresholds, small linewidth enhancement factor, and low sensitivity to reflections. Here, we present widely tunable quantum-dot lasers heterogeneously integrated on silicon-on-insulator substrate. The tuning mechanism is based on Vernier dual-ring geometry, and a 47 nm tuning range with 52 dB side-mode suppression ratio is observed. These parameters show an increase to 52 nm and 58 dB, respectively, when an additional wavelength filter in the form of a Mach–Zehnder interferometer is added to the cavity. The Lorentzian linewidth of the lasers is measured as low as 5.3 kHz.

Topics & Concepts

Laser linewidthOptoelectronicsMaterials scienceQuantum dot laserLasing thresholdLaserQuantum dotOpticsTunable laserSiliconSemiconductor laser theoryWavelengthPhysicsSemiconductorPhotonic and Optical DevicesSemiconductor Lasers and Optical DevicesSemiconductor Quantum Structures and Devices
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