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High-quality microresonators in the longwave infrared based on native germanium

Dingding Ren, Chao Dong, Sadhvikas Addamane, David Burghoff

2022Nature Communications37 citationsDOIOpen Access PDF

Abstract

Abstract The longwave infrared (LWIR) region of the spectrum spans 8 to 14 μm and enables high-performance sensing and imaging for detection, ranging, and monitoring. Chip-scale LWIR photonics has enormous potential for real-time environmental monitoring, explosive detection, and biomedicine. However, realizing technologies such as precision sensors and broadband frequency combs requires ultra low-loss and low-dispersion components, which have so far remained elusive in this regime. Here, we use native germanium to demonstrate the first high-quality microresonators in the LWIR. These microresonators are coupled to partially-suspended Ge waveguides on a separate glass chip, allowing for the first unambiguous measurements of isolated linewidths. At 8 μm, we measured losses of 0.5 dB/cm and intrinsic quality ( Q ) factors of 2.5 × 10 5 , nearly two orders of magnitude higher than prior LWIR resonators. Our work portends the development of novel sensing and nonlinear photonics in the LWIR regime.

Topics & Concepts

LongwaveGermaniumMaterials scienceOptoelectronicsPhotonicsInfraredBroadbandOpticsDispersion (optics)PhysicsRadiative transferSiliconPhotonic and Optical DevicesAdvanced Fiber Laser TechnologiesMechanical and Optical Resonators