材料科学
硅
基质(水族馆)
光电子学
光子晶体
激光器
光子学
硅光子学
山脊
光学
物理
生物
海洋学
地质学
古生物学
作者
Zhongtao Ouyang,Davide Colucci,E. M. B. Fahmy,Andualem Ali Yimam,Joris Van Campenhout,B. Kunert,Dries Van Thourhout
摘要
Compact on-chip sources with efficient emission in the O-band are a critical component for the silicon photonics platform to realize its full potential in telecom and datacom applications. III-V semiconductors are still the main candidates for realizing such sources but their significant lattice mismatch with silicon remains a fundamental challenge hampering monolithic integration. Hence, we need innovative methods to confine defects outside the active device region. Here, an ultra-compact 1.31 mu m-emission photonic crystal (PC) nano-ridge laser selectively area grown on a trench-patterned silicon substrate using aspect ratio trapping and nano-ridge engineering is demonstrated. Lasing at a remarkably low pumping threshold of 4.42 kW/cm(2) and with a cavity length as small as 50 mu m was realized with the PC nano-ridge device. The laser exhibits a lasing peak with side-mode suppression ratio of over 17 dB and a linewidth as narrow as 1.47 nm under 22.91 kW/cm(2) pulsed pumping. This PC nano-ridge laser opens a novel route to realize a compact light source for future high-density and massively scalable silicon photonic integrated circuits in the field of data communication.
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