光学
材料科学
光子学
氮化物
激光器
光电子学
激光束
物理
纳米技术
图层(电子)
作者
Hao Xie,Yubo Wang,Yiyu Zhou,Jorge A. Holguín‐Lerma,Guangcanlan Yang,Zhimin Shi,Hong Tang
摘要
Integrated lasers play an essential role in diverse fields such as communication, sensing, and metrology. Self-injection locking provides an attractive route to create highly coherent chip-integrated lasers, but their long-term stability cannot be guaranteed without laser frequency locking, which requires fast laser frequency tuning. Here, we demonstrate an electro-optically tunable hybrid laser at 780 nm wavelength, based on aluminum nitride (AlN) integrated photonics. Leveraging the low-loss characteristics of AlN at short wavelengths and its electro-optic Pockels effect, the AlN hybrid laser enables single-wavelength lasing and fast frequency tuning at the same time. The laser exhibits 1 GHz modulation bandwidth, with 220 MHz/V modulation efficiency. This result demonstrates the potential of an integrated narrow linewidth laser on an AlN platform for applications that require fast laser tuning.
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