摘要
Leveraging the low linear and nonlinear absorption loss of silicon at mid-infrared(mid-IR)wavelengths,silicon photonic integrated circuits(PICs)have attracted significant attention for mid-IR applications including optical sensing,spectroscopy,and nonlinear optics.However,mid-IR silicon PICs typically show moderate performance compared to state-of-the-art silicon photonic devices operating in the telecommunication band.Here,we proposed and demonstrated suspended nanomembrane silicon(SNS)PICs with light-guiding within deep-subwavelength waveguide thickness for operation in the short-wavelength mid-IR region.We demonstrated key building components,namely,grating couplers,waveguide arrays,micro-resonators,etc.,which exhibit excellent performances in bandwidths,back reflections,quality factors,and fabrication tolerance.Moreover,the results show that the proposed SNS PICs have high compatibility with the multi-project wafer foundry services.Our study provides an unprecedented platform for mid-IR integrated photonics and applications.
出处
《Chip》
EI
2024年第3期29-35,共7页
芯片(英文)
基金
partly supported by the National Natural Science Foundation of China(NSFC)(62175179,62161160335)
Natural Science Foundation of Tianjin Municipality,China(23JCJQJC00250)
Natural Science Foundation of Guangdong Province,China(2022B1515130002,2023A1515011189)
Japan Society for the Promotion of Science(JSPS)(JP18K13798).
