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High-responsivity graphene photodetectors integrated on silicon microring resonators

Simone Schuler, Jakob E. Muench, Alfonso Ruocco, Osman Balcı, Dries Van Thourhout, Vito Sorianello, M. Romagnoli, Kenji Watanabe, Takashi Taniguchi, Ilya Goykhman, Andrea C. Ferrari, Thomas Mueller

2021Nature Communications126 citationsDOIOpen Access PDF

Abstract

Abstract Graphene integrated photonics provides several advantages over conventional Si photonics. Single layer graphene (SLG) enables fast, broadband, and energy-efficient electro-optic modulators, optical switches and photodetectors (GPDs), and is compatible with any optical waveguide. The last major barrier to SLG-based optical receivers lies in the current GPDs’ low responsivity when compared to conventional PDs. Here we overcome this by integrating a photo-thermoelectric GPD with a Si microring resonator. Under critical coupling, we achieve >90% light absorption in a ~6 μ m SLG channel along a Si waveguide. Cavity-enhanced light-matter interactions cause carriers in SLG to reach ~400 K for an input power ~0.6 mW, resulting in a voltage responsivity ~90 V/W, with a receiver sensitivity enabling our GPDs to operate at a 10 −9 bit-error rate, on par with mature semiconductor technology, but with a natural generation of a voltage, rather than a current, thus removing the need for transimpedance amplification, with a reduction of energy-per-bit, cost, and foot-print.

Topics & Concepts

ResponsivityOptoelectronicsMaterials sciencePhotodetectorGrapheneResonatorTransimpedance amplifierPhotonicsWaveguideSilicon photonicsOptical powerOpticsPhysicsNanotechnologyCMOSLaserOperational amplifierAmplifierPhotonic and Optical DevicesPlasmonic and Surface Plasmon ResearchMolecular Junctions and Nanostructures
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